#class Stix(nil) { #dcl(#class) sysdic. #method(#class) yourself { ^self. } #method yourself { ^self. } #method(#class) dump { } #method dump { } #method(#class) new { } #method(#class) new: anInteger { } #method basicSize { ^0 } #method basicAt: anInteger { ## self error: 'out of range'. } #method basicAt: anInteger put: anObject { ## self error: 'out of range'. } #method badReturnError { ## TODO: implement this } #method mustBeBoolean { ## TODO: implement this } #method doesNotUnderstand: aMessageSymbol { ## TODO: implement this } #method error: anErrorString { anErrorString dump. } } #class Object(Stix) { } #class NilObject(Stix) { } #class(#pointer) Class(Stix) { #dcl spec selfspec superclass subclasses name instvars classvars classinstvars instmthdic classmthdic. } #class Magnitude(Object) { } #class Association(Magnitude) { #dcl key value. } #class Character(Magnitude) { } #class Number(Magnitude) { #method add: aNumber { } #method + aNumber { } #method - aNumber { } #method * aNumber { } #method = aNumber { } #method < aNumber { } #method > aNumber { } } #class SmallInteger(Number) { } #class Boolean(Object) { } #class True(Boolean) { #method ifTrue: trueBlock ifFalse: falseBlock { ^trueBlock value. } #method ifTrue: trueBlock { ^trueBlock value. } #method ifFalse: falseBlock { ^nil. } } #class False(Boolean) { #method ifTrue: trueBlock ifFalse: falseBlock { ^falseBlock value. } #method ifTrue: trueBlock { ^nil. } #method ifFalse: falseBlock { ^falseBlock value. } } #class Collection(Object) { } #class(#byte) ByteArray(Collection) { #method at: anInteger { ^self basicAt: anInteger. } #method at: anInteger put: aValue { ^self basicAt: anInteger put: aValue. } } #class(#pointer) Array(Collection) { #method at: anInteger { ^self basicAt: anInteger. } #method at: anInteger put: aValue { ^self basicAt: anInteger put: aValue. } } #class(#character) String(Array) { } #class(#character) Symbol(Array) { } #class Set(Collection) { #dcl tally bucket. } #class SymbolSet(Set) { } #class Dictionary(Set) { } #class SystemDictionary(Dictionary) { } #class Namespace(Set) { } #class MethodDictionary(Dictionary) { } #class(#pointer) Context(Stix) { } #class(#pointer) MethodContext(Context) { #dcl sender ip sp ntmprs method receiver home origin. #method pc { ^ip } #method pc: anInteger { ip := anInteger. "sp := sp - 1." "whould this always work??? " } #method sp { ^sp. } #method sp: anInteger { sp := anInteger. } #method pc: aPC sp: aSP { ip := aPC. sp := aSP. ##sp := sp - 1. } } #class(#pointer) BlockContext(Context) { #dcl caller ip sp ntmprs nargs source home origin. #method value { } #method value: a { } #method value: a value: b { } #method value: a value: b value: c { } #method whileTrue: aBlock { ## http://stackoverflow.com/questions/2500483/is-there-a-way-in-a-message-only-language-to-define-a-whiletrue-message-without ## ---------------------------------------------------------------------------- ## ^(self value) ifTrue: [aBlock value. self whileTrue: aBlock]. ## ---------------------------------------------------------------------------- ## less block context before whileTrue: is recursively sent. ## whileTrue: is sent in a method context. ## (self value) ifFalse: [^nil]. ## aBlock value. ## self whileTrue: aBlock. ## ---------------------------------------------------------------------------- ## ---------------------------------------------------------------------------- | pc sp xsp | sp := thisContext sp. sp := sp - 1. "decrement sp by 1 becuase thisContext pushed above affects the sp method" pc := thisContext pc. self value ifFalse: [ ^nil "^self" ]. aBlock value. ##thisContext pc: pc - 3 sp: sp. ##thisContext pc: pc + 2 sp: sp. thisContext pc: pc + 1 sp: sp. ## this +2 or - 3 above is dependent on the byte code instruction size used for 'store' ## +2 to skip STORE_INTO_TEMP(pc) and POP_STACKTOP. ## TODO: make it independent of the byte code size ## ---------------------------------------------------------------------------- ## #