Sometimes qtxie can make changes in the Red repo on github and sometimes he makes PR's.

@iArnold I use PRs as a form of announcement of interesting changes, and to produce a link that people can add comments to. Usually (but not always) I merge them in immediately.

The above commit on byte-order sensitive masking is an example of something I didn't merge in immediately because I wanted to test it a little. But in a demonstration of the resilience of Ren-C to very major systemic modifications--it hasn't seemed to have any problems yet (on little endian systems). Such changes would be impossible to imagine on a codebase without the debug build and asserts.

So in about a day's worth of work, I was able to push the code to distinguish not just REBVAL* from UTF-8 string pointers (as in the example), but also to distinguish REBSER* from either. This means Rebol can now have polymorphism with respect to raw string literals, arrays, objects, values... I don't know any language implementation that does that.

It makes me a slightly nervous to say this hard core bit-twiddling is a first-class feature of the language, which it fully hinges upon. But that said: UTF-8 itself is very "bit-fiddly"...and being as bit-fiddly as it is has made it extremely popular (7 out of 8 websites use it today). Being afraid of going to the bit-twiddling level to achieve truly useful invariants would rule out most interesting technologies we know...data compression, encryption, whatever.

@HostileFork To clarify, you can differentiate what they point to, not the pointers themselves, right? Meaning they have to be dereferenced to be distinguished.

@MarkI One byte's worth of dereference. Correct.

Here's the not-actually-all-that-complicated way it's done. I wanted to preserve the fast platform integer-based assignments of literal bit patterns to headers, which can usually be done in one instruction.

The tricky part is the interpretation of what the bits mean.

10 means continuation byte. The interpretation of the first 4 bits of the first byte from left to right are: NODE_NOT_FREE, IS_END_MARKER, IS_VALUE_CELL, and IS_GC_MANAGED

So anything that's not "free" and doesn't serve as an end marker will implicitly not be mistaken for a UTF-8 string. That covers all non-END value cells, and all valid REBSER nodes.

A freed REBSER node is all 0 bits in the header. This overlaps with a zero byte UTF-8 string indicator for a zero length string. Hence you can't necessarily tell the difference between the two, although you could heuristically guess about it. But there's nowhere (outside the debug build diagnostics) that you would need to tell the difference--freed series pointers are essentially garbage from most points of view.

And an end marker in a full value cell uses the special pattern 11111111 in the first byte. That's got some spurious flags on it (how to you "GC manage" an end cell marker?) but the only flags that can be tested on an END marker are IS_END_MARKER and IS_VALUE_CELL; the rest are illegal to read. And using that pattern makes it invalid UTF8.

And another tiny quirk a bit like the freed series quirk is that an implicit end marker has the left 3 bits x10. They're not value cells, they're just a header's worth of bits terminating a structure that holds a fixed-size number of value cells. These cannot be distinguished (besides guessing heuristically) from a UTF8 string. But these only happen internally, and ENDs cannot be copied, so they can't escape.

So really the only big-picture question would be something like "okay, but what if you're writing C source code and it has literals that aren't UTF-8", and as a matter of precedent I'll cite Qt from 6 years ago...

> "we have decreed that the source should be UTF-8 only, and so I proceeded a few weeks ago to find and recode all non-UTF-8 sources. And I’m going even further than that: if you don’t use UTF-8 for your source code, you’ll be on your own."

In this case "on your own" would mean something like rebStringFromUtf32() vs being able to use literals.

Hm...if implicit end markers enforced 110 instead of allowing 010...then if that was a UTF-8 character sequence it would require a valid second byte that didn't have its high bit clear. So if you forced the second byte to start with 0 you could tell it wasn't a UTF-8 string. That's a sacrifice of two bits (otherwise available for any purpose in internal end markers) to distinguish internal end markers from UTF-8 strings.

And there's no real reason why free nodes need to put all 0 bits in the header. If it had anything besides a 0 byte in the first position, then a valid byte would be expected in the next spot. e.g. you could put 127 in the first byte and 255 in the second.

@MarkI I think it's impressive, anyway. :-/ But the thing that surprised me is that it's not just useful in simplifying API code, but internal code. You usually want to go by types internally (why have a switch() to see if something is a REBVAL* or a REBARR* when it's of type REBVAL*?) but debug routines are improved by it. Why Panic_Value or Panic_Series or Debug_Array or PROBE(value) when you can have one universal panic() and one probe()?

Is there any treatment of syntax colouring in any editor that is not completely ad-hoc and one-off? All signs point to NO.

Why we don't already have a protocol for that kind of thing is, while probably not that surprising, still ... beyond me.

Step 1: pass buffer to external program Step 2: translate boundaries returned to colour codes IS NOT THAT HARD.

@RebolBot are you alive?

@ShixinZeng That's very interesting.

@ShixinZeng Can you elaborate on that?

; Brought to you by: try.rebol.nl
a    0, 1

; Brought to you by: try.rebol.nl
"a^-0, 1"
== "a^-0, 1"

@redbot
a: "a ^-0, 1"
wsp: charset { ^-^M^/}
parse a [some [ remove wsp | skip]]
probe a

; Brought to you by: try.rebol.nl
"a0,1"
== "a0,1"

@Rebolbot do/2
a: "a ^-0, 1"
wsp: charset { ^-^M^/}
parse/all a [some [ remove wsp | skip]]
probe a

; Brought to you by: try.rebol.nl
; rebol.com/r3/docs/errors/script-invalid-arg.html
    *** ERROR
code: 305
type: script
id: invalid-arg
arg1: action
arg2: none
arg3: none
near: [parse/all a [some [remove wsp | skip]]
    probe a
]
where: none

@ShixinZeng REMOVE isn't the kind of rule whose success or failure should be judged on input advancement. Generally speaking, the "input advancement" clause is IIRC something that was added in R3-Alpha and has been controversial; it means more parses just fail than infinite loop, but this kind of problem comes up.

@RebolBot
a: "a ^-0, 1"
wsp: charset { ^-^M^/}
parse a [while [remove wsp | skip]]
probe a

; Brought to you by: try.rebol.nl
"a0,1"
== "a0,1"

It's out of my bailiwick to know whether the SOME and WHILE change is good or bad, so you'll have to ask @rgchris and @Brett. My impulse (as per the question) is that it's not good, but changing it presumably didn't come out of nowhere...someone must have wanted it.

@RebolBot
data: "x"
parse data [some [change "y"]]
probe data

; Brought to you by: try.rebol.nl
"x"
== "x"

@redbot
data: "x"
parse data [some [change "y"]]
probe data

; Brought to you by: try.rebol.nl
*** Script Error: PARSE - unexpected end of rule after: change
*** Where: parse
*** Stack: do-console all not unset? set do _execute if all not unset? set do parse

OK, now I see what it means by saying "input not change" in the documentation, it refers to the advance of input