The value for f1 I expected, the second one I do not expect. I expected 1 there, taking the value for i from the global context (or it should have been declared as /local ) I am now curious what was the value for i that was used as argument to be processes by function f2?
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make function! [[
/local o i
][o: make object! [i: 1234] i]]
== make function! [[
/local o i
][o: make object! [i: 1234] i]]
@kealist we can talk any mumbo-jumbo here, but for me it does not mean much anyway. I know, that by definition, the result is correct. But whoever came with the ill idea of mixing code-as-data aproach to actually simplify simple block scanning for set words, while the result is the code anyway, should be obliged to cover that in docs at least ...
I wonder, how expensive would be function reimplementation using parse, to find nested function or object definitions and make locals at the levels, where they would be expected kind of - more naturally ...
Just wondering why? Because the functionality is based upon the 'collect-words, which is a native and hence can't be further tweaked? The parser would look for set-word followed by make function! or make object! or for a setword followed by function and context/object? Is that too naive? :-)
In current Rebol, you cannot in general statically determine if a given piece of code constructs a function or an object.
f: func [] [g: func [] []]
There is no make function! anywhere inside the body of F.
foobar: :func
f: func [] [g: foobar [] []]
Now there isn't even a FUNC inside the body anymore. How do you know that FOOBAR actually constructs a function, which semantically makes the second block after FOOBAR code to be executed in a different scope -- thus needing special /LOCAL treatment?
You can only know that in general, once you are actually executing the code. When you start executing FOOBAR is only when you'll find out that FOOBAR constructs a function.
But if you are trying to write the locals-finding tool you want, that's too late. You need that information much earlier, when you are far far away from this particular execution.
Yes, that is the only reason which came to my mind, but then - how often do you reassign function names? I know it does not matter, because once that happens, the result would be unpredictable. You can't even pre-check on the type of the value, as it is not code yet, just data
@earl - to just not give up so easily - you stated, that you can't check on 'foobar above being function. But you can - type? :foobar == function! Would it cover the needs, or still would I miss on some cases?
@pekr What i have found is that Function does collect the words from an object defined inside a function but it doesn't hijack them. You just get two words with the same name, one local to the function and one local to the object:
@RebolBot
i: 1 f: function [] [ o: make object! [i: 3] print ["i is " i] print ["o/i is " o/i] ] f
@pekr type? == function! just tells you that it is a function. It does not tell you, what this function does. In particular, it doesn't tell you, that it is a function that creates functions.