I am implementing futures in Pharo. I came across this website http://onsmalltalk.com/smalltalk-concurrency-playing-with-futures. I am following this example and trying to replicate it on Pharo. However, I get to this point the last step and I have no idea what ">>" means: This symbol is not also included as part of Smalltalk syntax in http://rigaux.org/language-study/syntax-across-languages-per-language/Smalltalk.html.
BlockClosure>>future
^ SFuture new value: self fixTemps
I can see future is not a variable or a method implemented by BlockClosure. What should I do with this part of the code to make the promises/futures work as indicated at http://onsmalltalk.com/smalltalk-concurrency-playing-with-futures? I cannot add it on the Playground or as a method to my Promise class as it is, or am I missing something?
After adding the future method to BlockClosure, this is the code I try on the PlayGround.
value1 := [200 timesRepeat:[Transcript show: '.']. 6] future.
value2 := [200 timesRepeat:[Transcript show: '+']. 6] future.
Transcript show: 'other work'.
Transcript show: (value1 + value2).
Date today
The transcript displays the below error instead of the expected value of 12.
UndefinedObject>>DoIt (value1 is Undeclared)
UndefinedObject>>DoIt (value2 is Undeclared)
For some reason that it would be nice to learn, there is a traditional notation in Smalltalk to refer to the method with selector, say, m in class C which is C>>m. For example, BlockClosure>>future denotes the method of BlockClosure with selector #future. Interestingly enough, the expression is not an evaluable Smalltalk one, meaning, it is not a Smalltalk expression. It is just a succinct way of saying, "what comes below is the source code of method m in class C". Just that.
In Smalltalk, however, methods are objects too. In fact, they are instances of CompiledMethod. This means that they can be retrieved by sending a message. In this case, the message is methodAt:. The receiver of the message is the class which implements the method and the argument is the selector (respectively, C and #m, or BlockClosure and #future in your example).
Most dialects, therefore, implement a synonym of methodAt: named >>. This is easily done in this way:
>> aSymbol
^self methodAt: aSymbol
This puts the Smalltalk syntax much closer to the traditional notation because now BlockClosure>>future looks like the expression that would send the message >> to BlockClosure with argument future. However, future is not a Symbol unless we prepend it with #, namely #future. So, if we prefix the selector with the # sign, we get the literal Symbol #future, which is a valid Smalltalk object. Now the expression
BlockClosure >> #future
becomes a message, and its result after evaluating it, the CompiledMethod with selector #future in the class BlockClosure.
In sum, BlockClosure>>future is a notation, not a valid Smalltalk expression. However, by tweaking it to be BlockClosure >> #future, it becomes an evaluable expression of the language that returns the method the notation referred to.