There is a way to prevent this particular crash case that wouldn't be too inefficient. Keep a stack of the currently executing PARSE rules, and when Expand_Block runs...check that stack to see if each value pointer in that stack lives inside the expanding block. If so, throw an error and stop the parse. Of course that doesn't fix the general problem.
I am looking at self-modifying rules and wondering what exactly the semantics are and how they would work at all. That's a pretty broad question, but I'll use a specific "how would I do this" to turn it into a more focused one. (^(64) being the hex ascii for lowercase "d" so it doesn't get foun...
It's not so much a problem if you could catch it and say "modifying rule on stack", there's just no hook for that. You can't even do it by tracking all the REBSERs and modifications because many of the series operations are churning on pointers inside the data, and you can't get a series back from a value data pointer.
It suggests that what the REBVAL* based series routines do should actually be REBVALs of series + index passed around so that you have something you can actually put into a "do not modify list". Then all the modifying routines have to check that.
You could do all kinds of tracking, and I'm quite sure it's not the mutators that should check (unless it's PARSE's own mutators), but PARSE that'd have to check the world is still sane after executing executing actions.
Again: tired. Will need more comprehensive research into what is actually expected of PARSE. I'm of the Ladislav school of "if you do self-modifying rules, abandon all hope, ye who enter here".
Be sure to also shoot Maxim (@moliad) an inquiry. I think he is the most heavy user of self-modifying PARSE rules in current existence.
PROTECTing rules would disallow any modification. Unfortunately, there are currently quite a few modifications which are "safe" (by accident, we could say, but then, I promised not to be snarky).
Don't trigger an expansion, don't truncate back before the current position, etc ...
And to be perfectly fair: I don't in fact know if Ladislav is of the school I attributed to him above; our shared dislike really is about modifying input from within the parse, not about self-modifying rules.
@MarkI There's no REBSER* for the rules around inside parse, upon which to use BLK_TAIL.
That's (most likely, only following @HostileFork's diagnosis from a distance) part of the problem -- parse very early on retrieves the series payload (VAL_BLK_DATA) for the RULES argument and then just does pointer arithmetic on this REBVAL* (instead of the safer REBSER* + index dance), just assuming that no one else will ever touch it.
Most likely what is expected. Rule is modified from within, PARSE correctly continues with the modified rule.
If my model as described above is somewhat accurate, then this only works, because the "remove last" idiom REMOVE BACK TAIL properly inserts an internal END! pseudo-value in the last slot, which PARSE also correctly picks up on.
Now compare above remove back tail behaviour with the following:
CLEAR truncates by replacing the first value with an END! and by setting the series tail correctly. PARSE has already moved beyond the first value and has an internal REBVAL pointer still pointing at the ['w] position. Because CLEAR didn't modify that at all, PARSE still happily churns along on the "old" series, processing the 'W and then bumping in the "old" END! after that.
And that's still only the "awkward" cases.
If now, by any chance, the payload memory gets garbage collected (for whatever reason, Lest's actual case seems to be because the rules series gets expanded and hence realloc'd) a crash is not far away.
Clearly, the CLEAR vs REMOVE BACK TAIL example shows an inconsistency. I'd say, that the behaviour exhibited by the REMOVE BACK TAIL example is generally expected -- i.e. that PARSE correctly acts on modified rules. So the CLEAR example shows a bug, which, when fixed comprehensively and correctly, will also fix a range of much nastier memory corruption issues, such as the one Lest seems to stumble over.
>> repeat i 100 [print i lest %index.lest]
1
** Script error: protected value or series - cannot modify
** Where: append unless add-rule if if load-plugin parse lest repeat
** Near: append rules '|
@rebolbot delete
@rebolek I've added protection on the currently running rule stack to catch the dangerous cases. So it tells you where you're modifying something you shouldn't. There's one.
Brian, just FYI, I'm not ignoring the loop stuff on your repo. Cloned and went to push, but can't, so need to fork and then PR, but should I clean it up then and name to .reb or should I set up my own for consistency and get json.r in there...and I have other things to do too. :-)
@rebolek Here's a commit for it. It's based against Rebol master, but should presumably be something you can pull in against rebolsource too. github.com/rebol/rebol/commit/…
@earl --^ I actually don't have a rebol build environment handy right this moment, as I've got a strange 64-bit VM that has problems building 32-bit executables, so that was written against rebolsource. Mostly made it to help @rebolek find places that can trigger the crash. But something to look at when you're not tired.
Things like "is it okay to pass an arbitrarily large block to an error with Trap1". I don't know, but I don't know how else to help people know what the rule was that had the problem. Anyway, a little study that's taken up some time and now I'm tired...
I am looking at self-modifying rules and wondering what exactly the semantics are and how they would work at all. That's a pretty broad question, but I'll use a specific "how would I do this" to turn it into a more focused one. (^(64) being the hex ascii for lowercase "d" so it doesn't get foun...
