"
COPYRIGHT (c) 1993 by Claus Gittinger
All Rights Reserved
This software is furnished under a license and may be used
only in accordance with the terms of that license and with the
inclusion of the above copyright notice. This software may not
be provided or otherwise made available to, or used by, any
other person. No title to or ownership of the software is
hereby transferred.
"
Object subclass:#Exception
instanceVariableNames:'signal parameter errorString suspendedContext handlerContext
rejected originator resumeBlock rejectBlock'
classVariableNames:'EmergencyHandler RecursiveExceptionSignal'
poolDictionaries:''
category:'Kernel-Exceptions'
!
!Exception class methodsFor:'documentation'!
copyright
"
COPYRIGHT (c) 1993 by Claus Gittinger
All Rights Reserved
This software is furnished under a license and may be used
only in accordance with the terms of that license and with the
inclusion of the above copyright notice. This software may not
be provided or otherwise made available to, or used by, any
other person. No title to or ownership of the software is
hereby transferred.
"
!
documentation
"
Instances of Exception are passed to a Signal handling block as argument.
The handler block may perform various actions by sending corresponding messages
to the exception object. The following actions are possible:
reject - dont handle this signal;
another handler will be searched for,
upper in the calling hierarchy
proceed - return from the Signal>>raise, with nil as value
proceedWith:val - same, but return val from Signal>>raise
return - return from the Signal>>handle:do:, with nil as value
returnWith:val - same, but return val from Signal>>handle:do:
(this is also the handlers default,
if it falls through; taking the handlerBlocks value
as return value)
restart - restart the Signal>>handle:do:, after repairing
Via the Exception object, the handler can also query the state of execution:
where the Signal was raised, where the handler is, the signal which caused
the error and the errorString passed when the signal was raised. Also, an optional
parameter can be passed - the use is signal specific.:
[instance variables:]
signal <Signal> the signal which caused the exception
parameter <Object> a parameter (if any) which was passed when raising
the signal (only if raised with #raiseWith:aParameter)
errorString <String> an errorString
(usually the signals own errorString, but sometimes
changed explicitely in #raiseWith:errorString:)
suspendedContext <Context> the context in which the raise occured
handlerContext <Context> the context of the handler (if any)
resumeBlock <Block> private to the exception; needed to perform resume action
rejectBlock <Block> private to the exception; needed to perform reject action
In case of an unhandled signal raise, Exceptions EmergenyHandler will be evaluated.
The default emergeny handler will enter the debugger.
For applications, which do not want Debuggers to come up, other handlers are
possible.
For example, to get the typical C++ behavior, use:
Exception emergencyHandler:[:ex | Smalltalk exitWithCoreDump]
[Class variables:]
EmergencyHandler <Block> this block is evaluated, if no handler was defined
for a signal (i.e. this one is responsible for the
unhandled exception debugger).
Having this being a block allows to globally catch
these errors - even when no enclosing handler-scope
around the erronous code exists.
(as the catch/through does).
RecursiveExceptionSignal
<Signal> raised when within a handler for some signal,
the same signal is raised again.
[see also:]
Signal SignalSet QuerySignal
Context Block
Object DebugView
(``Exception handling and signals'': programming/exceptions.html)
[author:]
Claus Gittinger
"
!
examples
"
Examples on Exception-raising & handling are found in the doc/coding
section (CodingExamples).
The emergencyHandler stuff is very useful, to prevent endUser applications
from entering the debugger.
Some commonly used (useful) emergency handlers are provided in the
'useful handlers' section; try them to learn more
(especially, the mailingHandler is fun).
Of course, these are only examples - you may define your own handler
block and pass it to the #emergencyHandler: method.
BTW: the Launchers 'source & debugger' settings menu allows you
to install either a default or the notifying handler.
A handler which shows a box, then aborts - (no more debuggers):
[exBegin]
Exception emergencyHandler:(Exception abortingEmergencyHandler)
[exEnd]
A handler which aborts - (no box, no debugger):
[exBegin]
Exception emergencyHandler:[:ex | AbortSignal raise]
[exEnd]
try some exception (for demonstration, in some other process):
[exBegin]
[
#(1 2 3) at:4
] fork.
[exEnd]
cleanup (switch back to the regular handler, which enters the debugger):
[exBegin]
Exception emergencyHandler:nil
[exEnd]
A handler which shows a warnBox and asks for debugging:
[exBegin]
Exception emergencyHandler:(Exception notifyingEmergencyHandler)
[exEnd]
A handler which dumps information to a file (watch the file 'errorTrace.stx'):
[exBegin]
Exception emergencyHandler:(Exception dumpingEmergencyHandler)
[exEnd]
A handler which sends you mail:
[exBegin]
Exception emergencyHandler:(Exception mailingEmergencyHandler)
[exEnd]
"
! !
!Exception class methodsFor:'initialization'!
initialize
"setup the signal used to handle unhandled signals"
RecursiveExceptionSignal isNil ifTrue:[
RecursiveExceptionSignal := ErrorSignal newSignalMayProceed:false.
RecursiveExceptionSignal nameClass:self message:#recursiveExceptionSignal.
RecursiveExceptionSignal notifierString:'recursive signal raise in handler'
]
! !
!Exception class methodsFor:'instance creation'!
signal:aSignal parameter:aParameter errorString:aString suspendedContext:sContext
"create a new instance and set the fields in preparation for a raise.
- only to be sent from the signal when raising"
"{ Pragma: +inlineNew }"
^ (self basicNew)
signal:aSignal
parameter:aParameter
errorString:aString
suspendedContext:sContext
originator:(sContext receiver).
!
signal:aSignal parameter:aParameter errorString:aString suspendedContext:sContext originator:origin
"create a new instance and set the fields in preparation for a raise.
- only to be sent from the signal when raising"
"{ Pragma: +inlineNew }"
^ (self basicNew)
signal:aSignal
parameter:aParameter
errorString:aString
suspendedContext:sContext
originator:origin.
! !
!Exception class methodsFor:'Signal constants'!
recursiveExceptionSignal
"return the signal used to handle recursive signals in the handlers"
^ RecursiveExceptionSignal
! !
!Exception class methodsFor:'defaults'!
emergencyHandler
"return the handler used for unhandled exceptions.
If no EmergencyHandler has been set, a handler which enters the
debugger is returned.
The debugger is opened by asking the signal for a debug action,
this allows to provide other debuggers in specialized (subclass-instances)
of Signal (if that is ever needed)"
"
set it up, when called the first time
"
EmergencyHandler isNil ifTrue:[
EmergencyHandler := [:ex |
"
sending it to the signal allows per-signal specific
debuggers to be implemented in the future
(for example, segv in primitive code could show things
on the C-level ..)
"
(ex signal) enterDebuggerWith:ex message:(ex errorString).
]
].
^ EmergencyHandler
"Modified: 15.1.1997 / 20:50:37 / cg"
!
emergencyHandler:aOneArgBlock
"set the handler used for unhandled exceptions.
The default (a nil-handler) leads to a debugger to be shown."
EmergencyHandler := aOneArgBlock
"ST-80 behavior of first showing a notifier:
(I prefer to get right into the debugger, though)
Exception
emergencyHandler:
[:ex | self errorNotify:ex errorString ]
"
"ST-X behavior of going right into the debugger:
Exception
emergencyHandler:nil
"
"automatically aborting current operation, on error:
(may be useful for end-user apps; make certain,
you have abortSignal handlers at appropriate places)
Exception
emergencyHandler:
[:ex | Object abortSignal raise. ex return. ]
"
"finally, traditional language system behavior; dump core ;-)
Exception
emergencyHandler:
[:ex | Smalltalk exitWithCoreDump. ]
"
"Modified: 15.1.1997 / 20:49:06 / cg"
! !
!Exception class methodsFor:'useful handlers'!
abortingEmergencyHandler
"return a block (usable as an emergency handler),
which aborts after showing a warnBox.
This is useful for endUser applications"
^ [:ex | self warn:'Error: ' , ex errorString.
AbortSignal raise
]
"test with (try a few halts or CTRL-C's):
Exception emergencyHandler:(Exception abortingEmergencyHandler)
"
"back with:
Exception emergencyHandler:(Exception notifyingEmergencyHandler)
Exception emergencyHandler:nil
"
"Created: 15.1.1997 / 20:13:06 / cg"
"Modified: 15.1.1997 / 20:15:02 / cg"
!
dumpingEmergencyHandler
"return a block (usable as an emergency handler),
which dumps the stackBacktrace to a trace file and
aborts after showing a warnBox.
This is useful, for endUser application, which are still being
debugged (i.e. the programmers may have a look at the traceFile
from time to time).
Notice:
The code below is just an example; you may want to change the
name of the error-file in your application
(but please: copy the code; do not modify here)"
^ [:ex |
|str printedException|
ex signal == Signal noHandlerSignal ifTrue:[
printedException := ex parameter.
] ifFalse:[
printedException := ex
].
"/ user interruption is handled specially:
"/ allow user to choose between proceeding or aborting
"/ but never dump that information to the file.
printedException signal == Object userInterruptSignal ifTrue:[
(self confirm:'abort current action ?') ifTrue:[
AbortSignal raise
].
ex proceed
].
"/
"/ dump it to 'errorTrace.stx'
"/
str := 'errorTrace.stx' asFilename appendingWriteStream.
str nextPutLine:('******************************* '
, AbsoluteTime now printString
, ' *******************************').
str cr.
str nextPutLine:('** Error: ' , printedException errorString).
str nextPutLine:('** Signal: ' , printedException signal printString).
str nextPutLine:('** Parameter: ' , printedException parameter printString).
str nextPutLine:('** Process: ' , Processor activeProcess printString).
str nextPutLine:('** Backtrace:').
str cr.
printedException suspendedContext fullPrintAllOn:str.
str cr.
str cr.
str close.
"/ send a line to stdErr
('[warning]: ignored error: ' , printedException errorString) errorPrintCR.
('[warning]: error information appended to ''errorTrace.stx''') errorPrintCR.
AbortSignal raise
]
"test with (try a few halts or CTRL-C's):
Exception emergencyHandler:(Exception dumpingEmergencyHandler)
"
"back with:
Exception emergencyHandler:(Exception notifyingEmergencyHandler)
Exception emergencyHandler:nil
"
"Created: 15.1.1997 / 20:14:52 / cg"
"Modified: 24.1.1997 / 20:36:21 / cg"
!
mailingEmergencyHandler
"return a block (usable as an emergency handler),
which shows a warnBox and optionally mails a stackBacktrace to a maintainer.
This is useful, for endUser application, which are still being
debugged (i.e. the programmers may have a look at the errors).
Notice: the stuff here is a demonstration only; it should be modified
for your particular environment ...
... but please: copy the code and modify there;
leave the stuff below as it is."
^ [:ex |
|str printedException doMail emergencyMailReceiver pipe|
ex signal == Signal noHandlerSignal ifTrue:[
printedException := ex parameter.
] ifFalse:[
printedException := ex
].
"/ user interruption is handled specially:
"/ allow user to choose between proceeding or aborting
"/ but never dump that information to the file.
printedException signal == Object userInterruptSignal ifTrue:[
(self confirm:'abort current action ?') ifTrue:[
AbortSignal raise
].
ex proceed
].
"/ somehow get the name of the guy to receive the mail
"/ you have to implement that yourself.
"/ emergencyMailReceiver := OneOfYourClass getEmergencyMailReceiver.
emergencyMailReceiver := OperatingSystem getLoginName.
emergencyMailReceiver isNil ifTrue:[
self warn:(printedException errorString
, '\\No mailing to service people possible.') withCRs.
doMail := false.
] ifFalse:[
doMail := self confirm:(printedException errorString
, '\\Mail error information to the service people ('
, emergencyMailReceiver , ') ?') withCRs
].
doMail ifTrue:[
str := '' writeStream.
str nextPutLine:('Error notification from '
, OperatingSystem getLoginName
, '@'
, OperatingSystem getHostName).
str cr.
str nextPutLine:('Time: ' , AbsoluteTime now printString).
str nextPutLine:('Error: ', printedException errorString).
str nextPutLine:('Signal: ', printedException signal printString).
str nextPutLine:('Parameter: ', printedException parameter printString).
str nextPutLine:('Process: ', Processor activeProcess printString).
str nextPutLine:'Backtrace:'.
str cr.
printedException suspendedContext fullPrintAllOn:str.
str cr;cr.
str close.
pipe := PipeStream
writingTo:'mail ', emergencyMailReceiver.
pipe notNil ifTrue:[
pipe nextPutLine:'Subject: automatic error report'.
pipe nextPutAll:str contents.
pipe cr.
pipe close.
]
].
AbortSignal raise
]
"test with (try a few halts or CTRL-C's):
Exception emergencyHandler:(Exception mailingEmergencyHandler)
"
"back with:
Exception emergencyHandler:(Exception notifyingEmergencyHandler)
Exception emergencyHandler:nil
"
"Created: 15.1.1997 / 20:14:52 / cg"
"Modified: 15.1.1997 / 21:10:28 / cg"
!
notifyingEmergencyHandler
"return a block (usable as an emergency handler for exceptions),
which does errorNotification before going into the debugger."
^ [:ex | nil errorNotify:ex errorString from:ex suspendedContext ]
"test with (try a few halts or CTRL-C's):
Exception emergencyHandler:(Exception notifyingEmergencyHandler)
"
"back with:
Exception emergencyHandler:nil
"
"Modified: 15.1.1997 / 20:15:12 / cg"
! !
!Exception methodsFor:'accessing'!
errorString
"return the errorString passsed with the signal raise
(or nil, if there was none)"
^ errorString
!
handlerContext
"return the context of the handler"
^ handlerContext
!
originator
"return the originator passsed with the signal raise
(or nil, if there was none)"
^ originator
!
parameter
"return the parameter passsed with the signal raise
(or nil, if there was none)"
^ parameter
!
rejected
"return true, if any other of the exceptions handlers has rejected
Uncertain, if this is really interesting to anybody.
This is only valid during handler execution.
(i.e. an outer handler can find out, if any other handler has already
rejected).
"
^ rejected
!
signal
"return the signal, that caused the exception"
^ signal
!
suspendedContext
"return the context in which the raise occured"
^ suspendedContext
!
willProceed
"return true, if the exception is proceedable"
^ resumeBlock notNil
! !
!Exception methodsFor:'handler actions'!
proceed
"Continue after the raise - the raise returns nil"
|b|
resumeBlock notNil ifTrue:[
b := resumeBlock.
resumeBlock := rejectBlock := handlerContext := suspendedContext := nil.
b value:nil
]
"Modified: 27.3.1997 / 16:44:39 / cg"
!
proceedWith:value
"Continue after the raise - the raise returns value"
|b|
resumeBlock notNil ifTrue:[
b := resumeBlock.
resumeBlock := rejectBlock := handlerContext := suspendedContext := nil.
b value:value
]
"Modified: 27.3.1997 / 16:45:57 / cg"
!
reject
"handler decided not to handle this signal -
system will look for another handler"
rejected := true.
rejectBlock value
!
restart
"restart the handle:do: - usually after some repair work is done
in handler"
handlerContext unwindAndRestart
!
restartDo:aBlock
"restart the handle:do: but execute the argument, aBlock instead of the
original do-block - usually after some repair work is done in handler"
handlerContext argAt:2 put:aBlock.
handlerContext unwindAndRestart
"
|sig rslt|
sig := Signal new.
sig handle:[:ex |
ex restartDo:[ rslt := 999 ]
] do:[
rslt := 0.
sig raise
].
Transcript showCR:rslt
"
"Modified: / 8.11.1997 / 18:52:28 / cg"
!
resume
"Continue after the raise - the raise returns nil"
|b|
resumeBlock notNil ifTrue:[
b := resumeBlock.
resumeBlock := rejectBlock := handlerContext := suspendedContext := nil.
b value:nil
]
"Modified: 27.3.1997 / 16:45:18 / cg"
!
resumeWith:value
"Continue after the raise - the raise returns value"
|b|
resumeBlock notNil ifTrue:[
b := resumeBlock.
resumeBlock := rejectBlock := handlerContext := suspendedContext := nil.
b value:value
]
"Modified: 27.3.1997 / 16:45:41 / cg"
!
return
"Continue after the handle:do: - the handle:do: returns nil"
|con|
con := handlerContext.
resumeBlock := rejectBlock := handlerContext := suspendedContext := nil.
con unwind
"Modified: 27.3.1997 / 16:46:39 / cg"
!
returnDoing:aBlock
"Continue after the handle:do: - the handle:do: returns aBlock value"
handlerContext unwindThenDo:aBlock
!
returnWith:value
"Continue after the handle:do: - the handle:do: returns value"
|con|
con := handlerContext.
resumeBlock := rejectBlock := handlerContext := suspendedContext := nil.
con unwind:value
"Modified: 27.3.1997 / 16:46:51 / cg"
! !
!Exception methodsFor:'raising'!
doCallHandler:aHandler
"call the handler proper - needed an extra method
to have a separate returnContext for the rejectBlock.
(which is historical, and actually no longer needed)"
|val|
rejectBlock := [^ self]. "this will return on reject"
val := aHandler value:self.
"
handler fall through - is just like a returnWith:blocks-value
"
rejectBlock := nil.
self returnWith:val
!
doRaise
"search through the context-calling chain for a 'handle:do:'-context
to the raising signal, a parent of it, or a SignalSet which includes
the raising signal.
If found, take the contexts 2nd argument (the handler) and evaluate
it with the receiver exception as argument.
If no handler is found, try per signal handler, or
per process handler (if its the noHandlerSignal).
Finally fall back to Exceptions emergencyHandler, which is always
available and enters the debugger.
ATTENTION: the code below depends on being called by #raise or
#raiseRequest for proper operation (it skips the sending context)."
|theContext block noHandlerSignal any msg conArg1
theSignal c ex1 activeHandlers inHandler rejected
lastHandler h raiseReceiver r firstHandler|
theSignal := signal.
theSignal isSignal ifFalse:[
self halt:'unexpected non-Signal in calling context'.
].
"/ 'search handler for: ' print. theSignal displayString printCR.
inHandler := false.
c := thisContext sender sender. "the raise/raiseRequest-context"
"the signal raise context"
"/ since the exceptionHandler is evaluated onTop of the
"/ contextChain, we must skip active handlers before searching.
"/ otherwise, we get into trouble, when re-raising an exception
"/ from within a handler (which would lead to re-executing the
"/ same handler)
"/ the code below collects active handlers ...
"/ on the fly, look for the first #handle:do: - context,
"/ and remember it (as firstHandler) to avoid walking the context chain twice
"/ in most cases ...
firstHandler := nil.
[c notNil] whileTrue:[
firstHandler isNil ifTrue:[
c := c findNextContextWithSelector:#doRaise or:#'handle:do:' or:#'handle:from:do:'.
] ifFalse:[
c := c findNextContextWithSelector:#doRaise or:nil or:nil.
].
c notNil ifTrue:[
(c selector == #doRaise) ifTrue:[
ex1 := c receiver.
((ex1 class == self class)
or:[ex1 species == self species]) ifTrue:[
(ex1 signal == theSignal) ifTrue:[
h := ex1 handlerContext.
h notNil ifTrue:[
r := h receiver.
(r notNil and:[r accepts:theSignal]) ifTrue:[
activeHandlers isNil ifTrue:[
activeHandlers := OrderedCollection new
].
lastHandler := h.
activeHandlers add:lastHandler.
inHandler := true.
c := lastHandler.
]
]
]
]
] ifFalse:[
"/ must be a #handle:do context ...
firstHandler := c.
]
]
].
"/ now, start searching for a handler,
"/ start search above the last active handler.
"/ Or start with the first handle:do: context, if one
"/ was found as a side effect of the previous handler search.
"/ If nil, then there is no handler and we can directly proceed
"/ to the unhandled code below.
"/ lastHandler notNil ifTrue:[
"/ theContext := lastHandler.
"/ theContext := lastHandler findNextContextWithSelector:#'handle:do:' or:#'handle:from:do:' or:nil.
"/ ] ifFalse:[
theContext := firstHandler.
"/ ].
"/ remember if there was any handler
"/ for the better errorString (unhandled vs. rejected exception)
any := false.
[theContext notNil] whileTrue:[
(theContext selector == #'handle:do:'
or:[(theContext argAt:2) == originator])
ifTrue:[
(activeHandlers notNil
and:[activeHandlers includesIdentical:theContext]) ifTrue:[
"/ 'skip activeHandler: ' print. theContext displayString printCR.
] ifFalse:[
"
if this is the Signal>>handle:do: context
or a SignalSet>>handle:do: context with self in it,
call the handler
"
r := theContext receiver.
(r notNil and:[r accepts:signal]) ifTrue:[
"call the handler"
conArg1 := theContext argAt:1.
handlerContext := theContext.
any := true.
self doCallHandler:conArg1.
"/ if the handler rejects, we arrive here
"/ continue search for another handler
rejected := true.
].
]
].
theContext := theContext findNextContextWithSelector:#'handle:do:' or:#'handle:from:do:' or:nil.
].
activeHandlers := nil.
"
we arrive here, if either no handler was found, or none of the
handlers did a return (i.e. every handler rejected or fell through).
"
"
try per signal handler
"
(block := signal handlerBlock) isNil ifTrue:[
"/
"/ if its a querySignal, ignore it
"/
signal isQuerySignal ifTrue:[^ nil].
"/
"/ if it is not the NoHandlerSignal, raise it ...
"/ passing the receiver as parameter.
"/
signal ~~ (noHandlerSignal := Signal noHandlerSignal) ifTrue:[
noHandlerSignal notNil ifTrue:[
any ifTrue:[
msg := 'unhandled (rejected)'
] ifFalse:[
msg := 'unhandled'
].
msg := msg , ' exception: (' , errorString , ')'.
^ noHandlerSignal
raiseRequestWith:self
errorString:msg
in:self suspendedContext
].
"/
"/ mhmh - an error during early startup; noHandlerSignal is
"/ not yet defined.
"/
^ MiniDebugger enterWithMessage:errorString
].
"
mhmh - smells like trouble - there is no handler and
no per-signal handler block.
Look for either a per-process emergencyHandlerBlock
or the global emergencyHandler (from Exception) ...
"
Processor notNil ifTrue:[
"care for signal during startup (Processor not yet created)"
block := Processor activeProcess emergencySignalHandler.
].
block isNil ifTrue:[
block := Exception emergencyHandler.
block isNil ifTrue:[
"care for error during startup (Exception not yet initialized)"
^ MiniDebugger enterWithMessage:errorString
].
].
].
"... and call it"
^ block value:self.
"Created: / 12.5.1996 / 15:09:39 / cg"
"Modified: / 9.11.1997 / 14:48:44 / cg"
!
raise
"actually raise a non-proceedable exception.
CAVEAT:
For now, in ST/X all signals are proceedable."
resumeBlock := [:value | ^ value].
^ self doRaise
"Modified: 12.5.1996 / 15:09:47 / cg"
!
raiseRequest
"actually raise a proceedable exception."
resumeBlock := [:value | ^ value].
^ self doRaise
"Modified: 12.5.1996 / 15:09:44 / cg"
! !
!Exception methodsFor:'setup'!
signal:aSignal parameter:aParameter errorString:aString suspendedContext:sContext originator:origin
"set the fields usable for inspection by the handler
- only to be sent from the signal when raising"
signal := aSignal.
parameter := aParameter.
errorString := aString.
suspendedContext := sContext.
originator := origin.
! !
!Exception class methodsFor:'documentation'!
version
^ '$Header: /cvs/stx/stx/libbasic/Exception.st,v 1.63 1998-01-16 14:58:23 cg Exp $'
! !
Exception initialize!