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I've been learning about continuation passing style, particularly the asynchronous version as implemented in javascript, where a function takes another function as a final argument and creates an asychronous call to it, passing the return value to this second function.

However, I can't quite see how continuation-passing does anything more than recreate pipes (as in unix commandline pipes) or streams:

replace('somestring','somepattern', filter(str, console.log));


echo 'somestring' | replace 'somepattern' | filter | console.log

Except that the piping is much, much cleaner. With piping, it seems obvious that the data is passed on, and simultaneously execution is passed to the receiving program. In fact with piping, I expect the stream of data to be able to continue to pass down the pipe, whereas in CPS I expect a serial process.

It is imaginable, perhaps, that CPS could be extended to continuous piping if a comms object and update method was passed along with the data, rather than a complete handover and return.

Am I missing something? Is CPS different (better?) in some important way?

To be clear, I mean continuation-passing, where one function passes execution to another, not just plain callbacks. CPS appears to imply passing the return value of a function to another function, and then quitting.

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1 Answer 1

In what sense is that asynchronous? It closely resembles the the use of an anonymous callback with closure, which is a common technique in asynchronous, event driven programming, with the difference that in that case, the callback is assigned as part of a larger structure/object for later use, meaning, when the anon function is used is indeterminate -- most likely, after the original call returns -- making it "asynchronous", whereas with this example, the function is used internally by the caller, so there is a synchronous order. Perhaps you have conflated these two different ideas? They would look the same at this point, with an anonymous function defined as a parameter.

"Except that the piping is much, much cleaner. With piping, it seems obvious that the data is passed on..."

First up: that's a matter of perspective, isn't it? I suppose a command-line pipe might be a little bit easier to understand the first time you see it, but the "CPS" thing does not seem much of a leap. It is also fairly common; "sort" built-in functions in many languages take a "compare" function and use it more or less the same way.

Second: These two things are not equivalent. With the pipe, what you are doing is this:

var x = replace(whatever);
x = filter(x);

Passing the return value of one function to another and using the output from that. Whereas with the function argument, filter() is called by replace() and its output is used internally by replace().

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On the asynchronous point: The implementation I was considering is when the callback is made as an asynchronous setTimeout call, rather than a synchronous direct function call. I didn't mean out-of-order. In javascript, to do CPS, you inevitably have to pass a callback, unless yield is considered CPS. Also, I would say that the two things are conceptually equivalent, when the CPS is being done with tail-calls. –  Phil H Apr 16 '12 at 14:13
There is a notable difference in that the outcome of the "tail call" can affect the outcome of the enclosing function. This is not the case with piping. In the pipe, what happens in result() affects what happens in filter(), but this still does not contain the possibilities of CPS, wherein replace determines what filter does but filter may also affect what result does. Sort/compare is an example of that. Probably CPS is not appropriate to accomplish something that could be done with a procedural pipe x=f1(); x=f2(x). Or: using "function (str) {return 'red'}" as a 2nd arg to replace. –  delicateLatticeworkFever Apr 16 '12 at 14:52
Another way to look at it, pipe vs. CPS: x = f1(f2()) duplicates a pipe if it means the return value of f2() is the arg to f1(). But that is not CPS. –  delicateLatticeworkFever Apr 16 '12 at 15:00
Just realised that my example was wrong, sorry. I meant to show an async CPS where the filter function called console.log with its output (i.e. grep), rather than passing a lamda. I've removed that bit of the example. –  Phil H Apr 16 '12 at 15:08
In the CPS version, what filter passes on to console.log is completely up to filter and may not be the same as what it passes back to replace. This potential discrepancy cannot apply to the pipe version. So again, the difference is that while CPS could be used (perhaps, inappropriately) to do the same thing as a pipe, a pipe could not be used to do the same thing as many CPS sequences. This is why I said, probably a CPS call that could be duplicated with a procedural sequence (pipe) should not be done via CPS. If you respect that rule-of-thumb, there's nothing to get confused about ;) –  delicateLatticeworkFever Apr 16 '12 at 15:42

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