Smalltalk current createPackage: 'Kernel-Methods'! Object subclass: #BlockClosure instanceVariableNames: '' package: 'Kernel-Methods'! !BlockClosure commentStamp! I represent a lexical closure. I am is directly mapped to JavaScript Function. ## API 1. Evaluation My instances get evaluated with the `#value*` methods in the 'evaluating' protocol. Example: ` [ :x | x + 1 ] value: 3 "Answers 4" ` 2. Control structures Blocks are used (together with `Boolean`) for control structures (methods in the `controlling` protocol). Example: `aBlock whileTrue: [ ... ]` 3. Error handling I provide the `#on:do:` method for handling exceptions. Example: ` aBlock on: MessageNotUnderstood do: [ :ex | ... ] `! !BlockClosure methodsFor: 'accessing'! compiledSource ! numArgs ! receiver ^ nil ! ! !BlockClosure methodsFor: 'controlling'! whileFalse self whileFalse: [] ! whileFalse: aBlock ! whileTrue self whileTrue: [] ! whileTrue: aBlock ! ! !BlockClosure methodsFor: 'converting'! asCompiledMethod: aString ! currySelf "Transforms [ :selfarg :x :y | stcode ] block which represents JS function (selfarg, x, y, ...) {jscode} into function (x, y, ...) {jscode} that takes selfarg from 'this'. IOW, it is usable as JS method and first arg takes the receiver." < return function () { var args = [ this ]; args.push.apply(args, arguments); return self.apply(null, args); } > ! ! !BlockClosure methodsFor: 'error handling'! on: anErrorClass do: aBlock "All exceptions thrown in the Smalltalk stack are cought. Convert all JS exceptions to JavaScriptException instances." ^ self try: self catch: [ :error | | smalltalkError | smalltalkError := Smalltalk current asSmalltalkException: error. (smalltalkError isKindOf: anErrorClass) ifTrue: [ aBlock value: smalltalkError ] ifFalse: [ smalltalkError resignal ] ] ! ! !BlockClosure methodsFor: 'evaluating'! applyTo: anObject arguments: aCollection ! ensure: aBlock ! new "Use the receiver as a JS constructor. *Do not* use this method to instanciate Smalltalk objects!!" ! newValue: anObject ^ self newWithValues: { anObject } ! newValue: anObject value: anObject2 ^ self newWithValues: { anObject. anObject2 }. ! newValue: anObject value: anObject2 value: anObject3 ^ self newWithValues: { anObject. anObject2. anObject3 }. ! newWithValues: aCollection "Use the receiver as a JavaScript constructor with a variable number of arguments. Answer the object created using the operator `new`. This algorithm was inspired by http://stackoverflow.com/a/6069331. Here's a general breakdown of what's going on: 1) Create a new, empty constructor function. 2) Set it's prototype to the receiver's prototype. Because the receiver is a `BlockClosure`, it is also a JavaScript function. 3) Instantiate a new object using the constructor function just created. This forces the interpreter to set the internal [[prototype]] property to what was set on the function before. This has to be done, as we have no access to the [[prototype]] property externally. 4) Apply `self` to the object I just instantiated." < var constructor = function() {}; constructor.prototype = self.prototype; var object = new constructor; var result = self.apply(object, aCollection); return typeof result === "object" ? result : object; > ! timeToRun "Answer the number of milliseconds taken to execute this block." ^ Date millisecondsToRun: self ! value ! value: anArg ! value: firstArg value: secondArg ! value: firstArg value: secondArg value: thirdArg ! valueWithPossibleArguments: aCollection ! ! !BlockClosure methodsFor: 'timeout/interval'! fork ForkPool default fork: self ! valueWithInterval: aNumber < var interval = setInterval(self, aNumber); return smalltalk.Timeout._on_(interval); > ! valueWithTimeout: aNumber < var timeout = setTimeout(self, aNumber); return smalltalk.Timeout._on_(timeout); > ! ! Object subclass: #CompiledMethod instanceVariableNames: '' package: 'Kernel-Methods'! !CompiledMethod commentStamp! I represent a class method of the system. I hold the source and compiled code of a class method. ## API My instances can be accessed using `Behavior >> #methodAt:` Object methodAt: 'asString' Source code access: (String methodAt: 'lines') source Referenced classes: (String methodAt: 'lines') referencedClasses Messages sent from an instance: (String methodAt: 'lines') messageSends! !CompiledMethod methodsFor: 'accessing'! arguments ! category ^ self protocol ! fn ^ self basicAt: 'fn' ! fn: aBlock self basicAt: 'fn' put: aBlock ! messageSends ^ self basicAt: 'messageSends' ! methodClass ^ self basicAt: 'methodClass' ! protocol ^ (self basicAt: 'protocol') ifNil: [ self defaultProtocol ] ! protocol: aString | oldProtocol | oldProtocol := self protocol. self basicAt: 'protocol' put: aString. SystemAnnouncer current announce: (MethodMoved new method: self; oldProtocol: oldProtocol; yourself). self methodClass ifNotNil: [ :methodClass | methodClass organization addElement: aString. methodClass removeProtocolIfEmpty: oldProtocol ] ! referencedClasses ^ self basicAt: 'referencedClasses' ! selector ^ self basicAt: 'selector' ! selector: aString self basicAt: 'selector' put: aString ! source ^ (self basicAt: 'source') ifNil: [ '' ] ! source: aString self basicAt: 'source' put: aString ! ! !CompiledMethod methodsFor: 'defaults'! defaultProtocol ^ 'as yet unclassified' ! ! !CompiledMethod methodsFor: 'evaluating'! sendTo: anObject arguments: aCollection ^ self fn applyTo: anObject arguments: aCollection ! ! !CompiledMethod methodsFor: 'testing'! isCompiledMethod ^ true ! isOverridden | selector | selector := self selector. self methodClass allSubclassesDo: [ :each | (each includesSelector: selector) ifTrue: [ ^ true ] ]. ^ false ! isOverride | superclass | superclass := self methodClass superclass. superclass ifNil: [ ^ false ]. ^ (self methodClass superclass lookupSelector: self selector) notNil ! ! Object subclass: #ForkPool instanceVariableNames: 'poolSize maxPoolSize queue worker' package: 'Kernel-Methods'! !ForkPool commentStamp! I am responsible for handling forked blocks. The pool size sets the maximum concurrent forked blocks. ## API The default instance is accessed with `#default`. The maximum concurrent forked blocks can be set with `#maxPoolSize:`. Forking is done via `BlockClosure >> #fork`! !ForkPool methodsFor: 'accessing'! maxPoolSize ^ maxPoolSize ifNil: [ self defaultMaxPoolSize ] ! maxPoolSize: anInteger maxPoolSize := anInteger ! ! !ForkPool methodsFor: 'actions'! fork: aBlock poolSize < self maxPoolSize ifTrue: [ self addWorker ]. queue nextPut: aBlock ! ! !ForkPool methodsFor: 'defaults'! defaultMaxPoolSize ^ self class defaultMaxPoolSize ! ! !ForkPool methodsFor: 'initialization'! initialize super initialize. poolSize := 0. queue := Queue new. worker := self makeWorker ! makeWorker | sentinel | sentinel := Object new. ^ [ | block | poolSize := poolSize - 1. block := queue nextIfAbsent: [ sentinel ]. block == sentinel ifFalse: [ [ block value ] ensure: [ self addWorker ] ]] ! ! !ForkPool methodsFor: 'private'! addWorker worker valueWithTimeout: 0. poolSize := poolSize + 1 ! ! ForkPool class instanceVariableNames: 'default'! !ForkPool class methodsFor: 'accessing'! default ^ default ifNil: [ default := self new ] ! defaultMaxPoolSize ^ 100 ! resetDefault default := nil ! ! Object subclass: #Message instanceVariableNames: 'selector arguments' package: 'Kernel-Methods'! !Message commentStamp! In general, the system does not use instances of me for efficiency reasons. However, when a message is not understood by its receiver, the interpreter will make up an instance of it in order to capture the information involved in an actual message transmission. This instance is sent it as an argument with the message `#doesNotUnderstand:` to the receiver. See boot.js, `messageNotUnderstood` and its counterpart `Object >> #doesNotUnderstand:` ## API Besides accessing methods, `#sendTo:` provides a convenient way to send a message to an object.! !Message methodsFor: 'accessing'! arguments ^ arguments ! arguments: anArray arguments := anArray ! selector ^ selector ! selector: aString selector := aString ! ! !Message methodsFor: 'actions'! sendTo: anObject ^ anObject perform: self selector withArguments: self arguments ! ! !Message methodsFor: 'printing'! printOn: aStream super printOn: aStream. aStream nextPutAll: '('; nextPutAll: self selector; nextPutAll: ')' ! ! !Message class methodsFor: 'instance creation'! selector: aString arguments: anArray ^ self new selector: aString; arguments: anArray; yourself ! ! Object subclass: #MessageSend instanceVariableNames: 'receiver message' package: 'Kernel-Methods'! !MessageSend commentStamp! I encapsulate message sends to objects. Arguments can be either predefined or supplied when the message send is performed. ## API Use `#value` to perform a message send with its predefined arguments and `#value:*` if additonal arguments have to supplied.! !MessageSend methodsFor: 'accessing'! arguments ^ message arguments ! arguments: aCollection message arguments: aCollection ! receiver ^ receiver ! receiver: anObject receiver := anObject ! selector ^ message selector ! selector: aString message selector: aString ! ! !MessageSend methodsFor: 'evaluating'! value ^ message sendTo: self receiver ! value: anObject ^ message arguments: { anObject }; sendTo: self receiver ! value: firstArgument value: secondArgument ^ message arguments: { firstArgument. secondArgument }; sendTo: self receiver ! value: firstArgument value: secondArgument value: thirdArgument ^ message arguments: { firstArgument. secondArgument. thirdArgument }; sendTo: self receiver ! valueWithPossibleArguments: aCollection self arguments: aCollection. ^ self value ! ! !MessageSend methodsFor: 'initialization'! initialize super initialize. message := Message new ! ! !MessageSend methodsFor: 'printing'! printOn: aStream super printOn: aStream. aStream nextPutAll: '('; nextPutAll: self receiver; nextPutAll: ' >> '; nextPutAll: self selector; nextPutAll: ')' ! ! Object subclass: #MethodContext instanceVariableNames: '' package: 'Kernel-Methods'! !MethodContext commentStamp! I hold all the dynamic state associated with the execution of either a method activation resulting from a message send. I am used to build the call stack while debugging. My instances are JavaScript `SmalltalkMethodContext` objects defined in `boot.js`.! !MethodContext methodsFor: 'accessing'! evaluatedSelector ! home ! index ! locals ! method ^ self methodContext ifNotNil: [ self methodContext receiver class lookupSelector: self methodContext selector ] ! methodContext self isBlockContext ifFalse: [ ^ self ]. ^ self outerContext ifNotNil: [ :outer | outer methodContext ] ! outerContext ! receiver ! selector < if(self.selector) { return smalltalk.convertSelector(self.selector); } else { return nil; } > ! sendIndexAt: aSelector ! sendIndexes ! temps self deprecatedAPI. ^ self locals ! ! !MethodContext methodsFor: 'converting'! asString ^ self isBlockContext ifTrue: [ 'a block (in ', self methodContext asString, ')' ] ifFalse: [ self receiver class name, ' >> ', self selector ] ! ! !MethodContext methodsFor: 'printing'! printOn: aStream super printOn: aStream. aStream nextPutAll: '('; nextPutAll: self asString; nextPutAll: ')' ! ! !MethodContext methodsFor: 'testing'! isBlockContext "Block context do not have selectors." ^ self selector isNil ! ! Object subclass: #NativeFunction instanceVariableNames: '' package: 'Kernel-Methods'! !NativeFunction commentStamp! I am a wrapper around native functions, such as `WebSocket`. For 'normal' functions (whose constructor is the JavaScript `Function` object), use `BlockClosure`. ## API See the class-side `instance creation` methods for instance creation. Created instances will most probably be instance of `JSObjectProxy`. ## Usage example: | ws | ws := NativeFunction constructor: 'WebSocket' value: 'ws://localhost'. ws at: 'onopen' put: [ ws send: 'hey there from Amber' ]! !NativeFunction class methodsFor: 'instance creation'! constructor: aString < var native=eval(aString); return new native(); > ! constructor: aString value:anObject < var native=eval(aString); return new native(anObject); > ! constructor: aString value:anObject value: anObject2 < var native=eval(aString); return new native(anObject,anObject2); > ! constructor: aString value:anObject value: anObject2 value:anObject3 < var native=eval(aString); return new native(anObject,anObject2, anObject3); > ! ! !NativeFunction class methodsFor: 'testing'! exists: aString ^ PlatformInterface existsGlobal: aString ! ! Object subclass: #Timeout instanceVariableNames: 'rawTimeout' package: 'Kernel-Methods'! !Timeout commentStamp! I am wrapping the returns from `set{Timeout,Interval}`. ## Motivation Number suffices in browsers, but node.js returns an object.! !Timeout methodsFor: 'accessing'! rawTimeout: anObject rawTimeout := anObject ! ! !Timeout methodsFor: 'timeout/interval'! clearInterval < var interval = self["@rawTimeout"]; clearInterval(interval); > ! clearTimeout < var timeout = self["@rawTimeout"]; clearTimeout(timeout); > ! ! !Timeout class methodsFor: 'instance creation'! on: anObject ^ self new rawTimeout: anObject; yourself ! !