class Collection(Object) { } ## ------------------------------------------------------------------------------- class(#pointer) Array(Collection) { method size { ^self basicSize } method at: anInteger { ^self basicAt: anInteger. } method at: anInteger put: aValue { ^self basicAt: anInteger put: aValue. } method first { ^self at: 0. } method last { ^self at: (self basicSize - 1). } method do: aBlock { 0 priorTo: (self basicSize) do: [:i | aBlock value: (self at: i)]. } method copy: anArray { 0 priorTo: (anArray basicSize) do: [:i | self at: i put: (anArray at: i) ]. } } ## ------------------------------------------------------------------------------- class(#character) String(Array) { method & string { (* TOOD: make this a primitive for performance. *) (* concatenate two strings. *) | newsize newstr cursize appsize | cursize := self basicSize. appsize := string basicSize. newsize := cursize + appsize. (*newstr := self class basicNew: newsize.*) newstr := String basicNew: newsize. 0 priorTo: cursize do: [:i | newstr at: i put: (self at: i) ]. 0 priorTo: appsize do: [:i | newstr at: (i + cursize) put: (string at: i) ]. ^newstr } method asString { ^self } } ## ------------------------------------------------------------------------------- class(#character) Symbol(String) { method asString { (* TODO: make this a primitive for performance *) (* convert a symbol to a string *) | size str | size := self basicSize. str := String basicNew: size. 0 priorTo: size do: [:i | str at: i put: (self at: i) ]. ^str. } method = anObject { (* for a symbol, equality check is the same as the identity check *) self primitiveFailed. } method ~= anObject { (* for a symbol, equality check is the same as the identity check *) ^(self == anObject) not. } } ## ------------------------------------------------------------------------------- class(#byte) ByteArray(Collection) { method at: anInteger { ^self basicAt: anInteger. } method at: anInteger put: aValue { ^self basicAt: anInteger put: aValue. } } ## ------------------------------------------------------------------------------- class Set(Collection) { dcl tally bucket. method initialize { self.tally := 0. self.bucket := Array new: 100. } method size { ^self.tally } method at: key { | ass | ass := self __find: key or_upsert: false with: nil. (ass notNil) ifTrue: [^ass value]. ^ErrorCode.NOENT } method at: key ifAbsent: error_block { | ass | ass := self __find: key or_upsert: false with: nil. (ass notNil) ifTrue: [^ass value]. ^error_block value. } method at: key put: value { self __find: key or_upsert: true with: value. ^value } method __find: key or_upsert: upsert with: value { | hv ass bs index ntally | bs := self.bucket size. hv := key hash. index := hv rem: bs. [(ass := self.bucket at: index) notNil] whileTrue: [ [key == ass key] ifTrue: [ (* TODO: change it to equality??? *) (* found *) upsert ifTrue: [ass value: value]. ^ass ]. index := (index + 1) rem: bs. ]. upsert ifFalse: [^nil]. ntally := self.tally + 1. (ntally >= bs) ifTrue: [ (* expand the bucket *) ]. ass := Association key: key value: value. self.tally := ntally. self.bucket at: index put: ass. ^ass } method do: block { | bs | bs := self.bucket size. 0 priorTo: bs by: 1 do: [:i | | ass | (ass := self.bucket at: i) notNil ifTrue: [block value: ass value] ]. } method keysDo: block { | bs | bs := self.bucket size. 0 priorTo: bs by: 1 do: [:i | | ass | (ass := self.bucket at: i) notNil ifTrue: [block value: ass key] ]. } method keysAndValuesDo: block { | bs | bs := self.bucket size. 0 priorTo: bs by: 1 do: [:i | | ass | (ass := self.bucket at: i) notNil ifTrue: [block value: ass key value: ass value] ]. } } class SymbolSet(Set) { } class Dictionary(Set) { } pooldic Log { ## ----------------------------------------------------------- ## defines log levels ## these items must follow defintions in stix.h ## ----------------------------------------------------------- #DEBUG := 1. #INFO := 2. #WARN := 4. #ERROR := 8. #FATAL := 16. } class SystemDictionary(Dictionary) { ## the following methods may not look suitable to be placed ## inside a system dictionary. but they are here for quick and dirty ## output production from the stix code. ## System logNl: 'XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX'. ## dcl(#pooldic) Log. method atLevel: level log: message { ## do nothing upon logging failure } method atLevel: level log: message and: message2 { ## do nothing upon logging failure } method atLevel: level log: message and: message2 and: message3 { ## do nothing upon logging failure } method atLevel: level logNl: message { ## the #_log primitive accepts an array. ## so the following lines should work also. ## | x | ## x := Array new: 2. ## x at: 0 put: message. ## x at: 1 put: S'\n'. ## ^self atLevel: level log: x. ^self atLevel: level log: message and: S'\n'. } method atLevel: level logNl: message and: message2 { ^self atLevel: level log: message and: message2 and: S'\n'. } method log: message { ^self atLevel: Log.INFO log: message. } method log: message and: message2 { ^self atLevel: Log.INFO log: message and: message2. } method logNl: message { ^self atLevel: Log.INFO logNl: message. } method logNl: message and: message2 { ^self atLevel: Log.INFO logNl: message and: message2. } method at: key { (key class ~= Symbol) ifTrue: [InvalidArgumentException signal: 'key is not a symbol']. ^super at: key. } method at: key put: value { (key class ~= Symbol) ifTrue: [InvalidArgumentException signal: 'key is not a symbol']. ^super at: key put: value } } class Namespace(Set) { } class PoolDictionary(Set) { } class MethodDictionary(Dictionary) { } extend Apex { ## ------------------------------------------------------- ## Association has been defined now. let's add association ## creating methods ## ------------------------------------------------------- method(#class) -> object { ^Association new key: self value: object } method -> object { ^Association new key: self value: object } }