// // TODO: is it better to inherit from Object??? // or treat Exception specially like UndefinedObject or Class??? // class Exception(Apex) { var signalContext, handlerContext. var(#get) messageText. /* TODO: can i convert 'thisProcess primError' to a relevant exception? var(#class) primExceptTable. method(#class) forPrimitiveError: no { ^self.primExceptTable at: no } */ method(#class) signal { ^self new signal } method(#class) signal: text { ^self new signal: text } method handlerContext: context { self.handlerContext := context. } method asString { ^(self class name) & " - " & self.messageText. } method signal { | exctx exblk retval actpos ctx | self.signalContext := thisContext. exctx := (thisContext sender) findExceptionContext. //[exctx notNil] whileTrue: [ while (exctx notNil) { exblk := exctx findExceptionHandler: (self class). //if (exblk notNil and: [actpos := exctx basicLastIndex. exctx basicAt: actpos]) if ((exblk notNil) and (exctx basicAt: (actpos := exctx basicLastIndex))) { self.handlerContext := exctx. exctx basicAt: actpos put: false. [ retval := exblk value: self ] ensure: [ exctx basicAt: actpos put: true ]. thisContext unwindTo: (exctx sender) return: nil. System 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. System backtrace. thisContext unwindTo: (thisProcess initialContext) return: nil. ("### EXCEPTION NOT HANDLED(Exception) #### " & 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 { if (self.handlerContext notNil) { System return: value to: self.handlerContext } } method retry { // TODO: verify if return:to: causes unnecessary stack growth. if (self.handlerContext notNil) { self.handlerContext pc: 0. System return: self to: self.handlerContext. } } method resume: value { // TODO: verify if return:to: causes unnecessary stack growth. // is this correct??? | ctx | if ((self.signalContext notNil) and (self.handlerContext notNil)) { ctx := self.signalContext sender. self.signalContext := nil. self.handlerContext := nil. System 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. while (ctx notNil) { if (ctx isExceptionContext) { ^ctx }. ctx := ctx sender. }. ^nil } method unwindTo: context return: retval { // ------------------------------------------------------------------- // <> // private: called by VM upon unwinding as well as by // Exception>>signal, Error>>signal, Process>>terminate // ------------------------------------------------------------------- | ctx stop eb pending_pos | ctx := self. stop := false. until (stop) { eb := ctx ensureBlock. if (eb notNil) { /* position of the temporary variable in the ensureBlock that indicates * if the block has been evaluated. see the method BlockContext>>ensure:. * it is the position of the last temporary variable of the method */ pending_pos := ctx basicLastIndex. /* if (ctx basicAt: pending_pos) { ctx basicAt: pending_pos put: false. eb value. }*/ if (ctx basicAt: pending_pos test: true put: false) { // TODO: what is the best way to handle an exception raised in an ensure block? [ eb value ] on: Exception do: [:ex | System logNl: "WARNING: unhandled exception in ensure block - " & ex messageText ]. }. }. stop := (ctx == context). ctx := ctx sender. // stop ifFalse: [ stop := ctx isNil ]. }. ^retval } } //============================================================================ pooldic MethodContext.Preamble { // this must follow MOO_METHOD_PREAMBLE_EXCEPTION in moo.h EXCEPTION := 13, // this must follow MOO_METHOD_PREAMBLE_ENSURE in moo.h ENSURE := 14 } pooldic MethodContext.Index { // [ 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 // instance variables, the ensure block must be at the 9th position // which translates to index 8 ENSURE := 8, // [ ... ] on: Exception: do: [:ex | ... ] FIRST_ON := 8 } extend MethodContext { method isExceptionContext { ^self.method preambleCode == MethodContext.Preamble.EXCEPTION. } method isEnsureContext { ^self.method preambleCode == MethodContext.Preamble.ENSURE. } method ensureBlock { ^if (self.method preambleCode == MethodContext.Preamble.ENSURE) { self basicAt: MethodContext.Index.ENSURE } else { nil } } method findExceptionHandler: 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 */ | size exc i | if (self isExceptionContext) { /* [NOTE] the following loop scans all parameters to the on:do: method. * if the on:do: method contains local temporary variables, * you must change this function to skip scanning local variables. * the current on:do: method has 1 local variable declared. * as local variables are placed after method arguments and * the loop increments 'i' by 2, the last element is naturally * get excluded from inspection. */ size := self basicSize. // start scanning from the position of the first parameter i := MethodContext.Index.FIRST_ON. while (i < size) { exc := self basicAt: i. if ((exception_class == exc) or (exception_class inheritsFrom: exc)) { ^self basicAt: (i + 1). }. i := i + 2. }. }. ^nil. } method handleException: exception { /* ----------------------------------------------------------------- * <> * 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 'exception_active' in MethodContext>>on:do. * for this code to work, it must be the last temporary variable in the method. */ //actpos := (self basicSize) - 1. actpos := self basicLastIndex. excblk := self findExceptionHandler: (exception class). if ((excblk isNil) or ((self basicAt: actpos) not)) { // 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. System return: retval to: self.sender. } } //============================================================================ extend CompiledBlock { method on: anException do: anExceptionBlock { | exception_active | /* ------------------------------- 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_active := true. ^self value. } method on: exc1 do: blk1 on: exc2 do: blk2 on: exc3 do: blk3 { | exception_active | exception_active := true. ^self value. } method on: exc1 do: blk1 on: exc2 do: blk2 on: exc3 do: blk3 on: exc4 do: blk4 { | exception_active | exception_active := true. ^self value. } method on: exc1 do: blk1 on: exc2 do: blk2 on: exc3 do: blk3 on: exc4 do: blk4 on: exc5 do: blk5 { | exception_active | exception_active := true. ^self value. } method ensure: aBlock { | retval pending | pending := true. retval := self value. /* the temporary variable 'pending' may get changed * during evaluation for exception handling. * it gets chagned in Context>>unwindTo:return: */ /*if (pending) { pending := false. aBlock value }.*/ if (thisContext basicAt: (thisContext basicLastIndex) test: true put: false) { aBlock value }. ^retval } method ifCurtailed: aBlock { | v pending | pending := true. [ v := self value. pending := false. ] ensure: [ if (pending) { aBlock value } ]. ^v. } method catch { ^self on: Exception do: [:ex | ex ] on: Error do: [:err | err ]. } } //============================================================================ class PrimitiveFailureException(Exception) { var errcode. method(#class) withErrorCode: code { ^(self new) errorCode: code; yourself. } method signal { self.errcode := thisProcess primError. ^super signal } method errorCode { ^self.errcode } method errorCode: code { self.errcode := code } } class NoSuchMessageException(Exception) { } class IndexOutOfRangeException(Exception) { } class SubclassResponsibilityException(Exception) { } class NotImplementedException(Exception) { } class InvalidArgumentException(Exception) { } class ProhibitedMessageException(Exception) { } class NotFoundException(Exception) { } class KeyNotFoundException(NotFoundException) { } class ValueNotFoundException(NotFoundException) { } class IndexNotFoundException(NotFoundException) { } extend Apex { method(#dual) error: text { Exception signal: text. } method(#dual,#liberal) primitiveFailed(method) { | a b msg ec ex | /* since method is an argument, the caller can call this method * from a context chain where the method context actually doesn't exist. * when a primitive method is defined using the #primitive method, * the VM invokes this primtiveFailed method without creating * the context for the primitive method. * method(#primitive) xxx. * method(#primitive) xxx { ^self primitiveFailed(thisContext method). } * in the former definition, primitiveFailed is called without * an activate context for the method xxx if the primitive fails. * on the other handle, in the latter definition, the context * for the method is activated first before primitiveFailed is * invoked. in the context chain, the method for xxx is found. */ /*System logNl: 'Arguments: '. a := 0. b := thisContext vargCount. while (a < b) { System logNl: (thisContext vargAt: a) asString. a := a + 1. }.*/ ec := thisProcess primError. msg := thisProcess primErrorMessage. if (msg isNil) { msg := ec asString }. if (method notNil) { msg := msg & " - " & (method owner name) & ">>" & (method name) }. //# TODO: convert an exception to a more specific one depending on the error code. //#if (ec == Error.Code.ERANGE) { self index: index outOfRange: (self basicSize) } //# elif (ec == Error.Code.EPERM) { self messageProhibited: method name } //# elif (ec == Error.Code.ENOIMPL) { self subclassResponsibility: method name }. (PrimitiveFailureException /* in: method */ withErrorCode: ec) signal: msg. } method(#dual) doesNotUnderstand: message_name { // TODO: implement this properly | class_name ctx | class_name := if (self class == Class) { self name } else { self class name }. //System backtrace. NoSuchMessageException signal: (message_name & " not understood by " & class_name). } method(#dual) index: index outOfRange: ubound { IndexOutOfRangeException signal: "Out of range". } method(#dual) subclassResponsibility: method_name { SubclassResponsibilityException signal: ("Subclass must implement " & method_name). } method(#dual) shouldNotImplement: method_name { SubclassResponsibilityException signal: ("Message should not be implemented - " & method_name). } method(#dual) notImplemented: method_name { | class_name | class_name := if (self class == Class) { self name } else { self class name }. NotImplementedException signal: (method_name & " not implemented by " & class_name). } method(#dual) messageProhibited: method_name { | class_name | class_name := if (self class == Class) { self name } else { self class name }. ProhibitedMessageException signal: (method_name & " not allowed for " & class_name). } }