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World: r3wp

[!REBOL3]

Andreas
20-Jan-2011
[7230x2]
Any idea how many bits are currently used for the types attribute?
(In R3, of course.)
BrianH
20-Jan-2011
[7232]
There are currently 56 types that we can see, so at least 6 bits 
rounding up. 8 would be generous.
Andreas
20-Jan-2011
[7233x5]
In the hostkit/extensions we the type as 8-bit byte.
So it probably is less than 8.
(<=)
What's the largest "immediate" datatype in R3?
80 bits for tuple!, 96 bits for money!.
BrianH
20-Jan-2011
[7238]
More than 80 for tuple - it has a length attribute in there somewhere.
Maxim
20-Jan-2011
[7239x2]
AFAIK 96 bits are reserved for immediate values with the 32 bits 
left for flags and stuff.
this was hinted at when the decimal pair was being worked on. IIRC
Andreas
20-Jan-2011
[7241x2]
Would make sense.
Considering that typeset! is supposedly immediate as well, we'll 
probably have 6 bits for the type.
BrianH
20-Jan-2011
[7243]
This is why I mark any suggestion to introduce a new datatype with 
the major flag in CureCode. We have a budget.
Ladislav
21-Jan-2011
[7244]
Considering that typeset! is supposedly immediate as well, we'll 
probably have 6 bits for the type.

 - I do not follow. I my calculations are correct, then the typeset 
 could have 96 bits, which means 96 different types at most. Nevertheless, 
 96 different types would need 7 bits, 6 is not enough.
Andreas
21-Jan-2011
[7245]
Yes, also a possibility.
Ladislav
21-Jan-2011
[7246]
Nevertheless, these limits may change, if the interpreter is compiled 
for a 64-bit environment, where the available space can increase...
Ladislav
22-Jan-2011
[7247x2]
Just a summary of the above "directly modify the slot" readers/watchers, 
that might not understand the whole discussion:


1) In REBOL some values, like blocks, maps, etc. can refer to other 
Rebol values. It is not reasonable to call the referring substructures 
"value slots" (I don't think I disclose too much when I say, that 
these referring substructures are 256-bit "wide"), since it can be 
easily demonstrated, that the substructures in fact don't "contain" 
the values, but rather they refer to them. (this is obvious if the 
value referred to is any of the values, that simply cannot be described 
by less than 256 bits) but is true also in case the value could eventually 
be described in less than 256 bits. (Brian calls such values "immediate", 
but I dislike that notion, since the values Brian calls "immediate" 
cannot, in fact, "fit in" the referring substructures either, and 
everybody having read my identity article knows enough to be able 
to do that as an exercise.).

2) Andreas asked in the discussion above, whether the possibility 
to "directly modify" the referencing substructures does not make 
all REBOL values mutable. The answer was "no", one of the resons 
is the fact, that the ability to "directly modify" the referencing 
substructures makes all values containing them mutable, which means, 
that REBOL blocks containing modifiable referencing substructures 
are mutable, etc... Any modification of the reference substructure 
is a mutation of the value containing the substructure, but cannot 
be a mutation of the value referenced by the substructure exactly 
because the substructures don't contain any values.
The opinion I presented above may be seen as "controversial", since 
it uses notions/definitions from my "Identity" article, which some 
see just a possible, but "unusual" alternative. If asked, I can be 
talked into demonstrating the fact, that the referencing structures 
don't contain any values, but, I do not want to start any flame wars 
about that, so, I reserve my right to not feel obliged to change 
the mind of all people seeing it differently.
Kaj
22-Jan-2011
[7249]
It's all a matter of indirections and which abstraction level one 
chooses as a viewpoint. Anyway, as far as I know, value slots are 
currently 128 bits
Ladislav
22-Jan-2011
[7250]
sorry, you are right
BrianH
22-Jan-2011
[7251x2]
I apologize if I am not parsing your sentences correctly, ahead of 
time.


We use the term "value slot" because that is the official term, not 
because it fully describes the situation. It's just Carl's term for 
that 128-bit structure.
 

You seem to be misunderstanding what I meant by "immediate" values: 
I meant values of the dataypes in the immediate! typeset.
>> immediate!

== make typeset! [none! logic! integer! decimal! percent! money! 
char! pair! tuple! time! date! datatype! typeset! word! set-word! 
get-word! lit-word! refinement! issue! event!]

Any type not in this typeset is not an immediate type. I don't mean 
anything else by "immediate".


Nonetheless, if you like you can think of all value slots as being 
references, but these are not necessarily references in the C pointer 
sense. For many of the "immediate" types (as defined above) these 
are abstract references. For instance, consider [1]. The first element 
of [1] refers to the abstract idea of an integer, of the value 1, 
plus some extra stuff (like no new-line attribute). However, the 
block [1] just contains a "value slot" which has a bunch of bits 
in it. We have decided that those bits refer to the idea of that 
value (integer, 1, extra stuff), but finally they are just bits. 
If you change the bits, the new set of bits would refer to a different 
idea - the original idea is unchanged, just not referred to anymore 
by the block. This is close enough to "immutable" that we can treat 
"immediate" types as such, which is helpful for reasoning purposes.


Now here is the interesting part: We can consider *all* "immediate" 
types to be immutable. The word types contain pointers (effectively) 
to a symbol and a binding. However, the symbol is immutable, and 
the binding can be considered a reference value - what the binding 
refers to may be modified, but the reference itself is not (in the 
abstract). If you change either of those two pointers, this would 
make it a new word - the old symbol and binding referent are unchanged. 
The actual binding referent is considered to be a separate value 
from the word (a object or context). So, words are still close enough 
to "immutable" for reasoning purposes.


Where it gets iffy is when we get into types that are not in that 
immediate! typeset, because the "immutable" part is only references 
and offsets, not any part of the value that we would usually consider 
valuable. For the purposes of reasoning there really isn't much of 
the value that is worth considering to be inherently "immutable", 
and such types are worth flagging when considering sharing of data 
and other stuff. This is why these types aren't in the immediate! 
typeset (and why we have that typeset predefined).


The reason the typeset is called immediate! rather than immutable! 
is because the feature of the types that we want to emphasize is 
that values of those types, when passed to functions or otherwise 
assigned to other value slots, can at least in an abstract sense 
be considered to be copied to the other value slot (even if the abstract 
idea of the value is still abstractly referred to). This means in 
particular that changes to a value slot can't affect other value 
slots that refer to the same value (at least before the change). 
For non-immediate types all or part of the value is not copied on 
assignment, so changes to the original would affect at least part 
of the value referred to by the new slot. This is the crucial difference 
for CS reasoning purposes. We don't call them "immutable" directly 
because things like using path syntax to fake mutability of tuples, 
or PROTECT making stuff immutable, tends to confuse the issue.


Where it gets even more interesting is when you consider that the 
existence and implementation of value slots is actually irrelevant 
to the behavior of REBOL; all that really matters is the difference 
in apparent behavior between the immediate! types and the rest. You 
could have boxed unique integers and decimals that are referred to 
by pointers if you like, or symbols that don't exist except as unique 
numbers, or a generational or compacting collector that changes the 
location of the referents and updates the references accordingly. 
None of that matters as long as the system at least pretends that 
the immediate! types are unchangeable and copied on assignment.
A lot of these terms are basically arbitrary, and can be considered 
by some to be not very precise, but they were all chosen for very 
good reasons. The above is the reasoning behind our use of the term 
"immediate", which is now the REBOL standard term for that concept, 
for better or worse.
Steeve
22-Jan-2011
[7253]
Agreed
Ladislav
22-Jan-2011
[7254]
{I apologize if I am not parsing your sentences correctly, ahead 
of time.} - I think, that you did well when parsing the sentences 
;-)


{We use the term "value slot" because that is the official term, 
not because it fully describes the situation.} - maybe I am the one 
to apologize here, I had no idea it was official, I thought, that 
it was not mentioned in the official documentation...


{You seem to be misunderstanding what I meant by "immediate" values: 
I meant values of the dataypes in the immediate! typeset.} - OK, 
so, I may need to be careful, and not mention any properties of the 
immediate! values, since they are not the reason why the immeditate! 
typeset was defined?
BrianH
22-Jan-2011
[7255]
If there are more properties of the immediate! values than the ones 
I listed above, as opposed to the other types, feel free to list 
them. I just gave an overview. As for documentation, that's a little 
behind. I was just going by how the person who writes this stuff 
refers to them. It's been used in some blogs, conversations, etc. 
It's a term taken from compiler construction jargon, appropriate 
since the semantics of REBOL has a lot of overlap with those of a 
compiler.
Ladislav
22-Jan-2011
[7256x2]
{Any type not in this typeset ist an immediate type. I don't mean 
anything else by "immediate".} - nevertheless, this provokes a question: 
does that mean, that no matter how these values are implemented (using 
less than 128 bits, or more than 128 bits to completely describe 
them), the typeset definition would not be affected?
ist
 - read as "is not", please, I messed the cut and paste, sorry
BrianH
22-Jan-2011
[7258]
As long as they behave the same, sure, why not? Words have pointers 
and integers don't, but they both keep with the behavior of that 
group.
Ladislav
22-Jan-2011
[7259]
Nonetheless, if you like you can think of all value slots as being 
references, but these are not necessarily references in the C pointer 
sense.

 - correct, I do not want to say, they are references in the C pointer 
 sense, that should be emphasized".
BrianH
22-Jan-2011
[7260]
Right. This is all an elaborate way of pointing out that we don't 
actually disagree on how things work :)
Ladislav
22-Jan-2011
[7261]
I guess, that I owe a little more to the readers, so here is an example 
illustrating what I actually mean:

let's define a block as follows:

    a-block: [[1] [2]]


at the present state, it is obvious, that first a-block and second 
a-block are not identical
illustration:

    same? first a-block second a-block ; == false

now, let's use the CHANGE function:

    change/only next a-block first a-block
    a-block ; == [[1] [1]]

due to the way we did it,

and due to reflexivity of identity, first a-block and second a-block 
yield the same value,
after this operation

("the same" in the sense, that there is only one value, which happens 
to be the value both expressions yield.)


since first a-block and second a-block are two expressions yielding 
just one value,
we conclude (as a consequence of that), that the respective value
is not contained in the first slot of the A-BLOCK block

(if it were "contained" in there we could not be able to see, that 
the value is actually not "contained" in there)


Usíng the same approach for any other REBOL value, we can demonstrate, 
that no value is "contained" in "value slot". Since we *can* find 
out "Which value is the first a-block value?" there is only one conclusion 
we can make: using the first a-block expression we can refer to the 
value (this is why I use the words "reference", "refer"), but that 
does not mean, any other "reference" cannot "refer" to that value 
as well, thus the value "is not contained", but just "referenced".
BrianH
22-Jan-2011
[7262]
Another (less useful) way to look at it is to say that no value is 
really the same as or identical to any other value, only to itself 
(the same value slot). But since that's a useless way to look at 
it, we instead compare the bits of the different value slots and 
if they match we then say that they are the SAME? (or IDENTICAL?, 
depending on how many bits we are comparing). Expediency for the 
win!
Ladislav
22-Jan-2011
[7263x4]
Another (less useful) way to look at it is to say that no value is 
really the same as or identical to any other value...Expediency for 
the win!

 - yes, that is where the expediency is what should win, exactly as 
 you pointed out.
(We need to have the documentation mentioning Rebol values, compare 
results of different expressions to find out whether they are identical 
or not, document whether some value is modified by some function, 
...)
no value is really the same as or identical to any other value, only 
to itself (the same value slot).

- well, the first part of the sentence is a law of logic - nothing 
can be identical with any other thing except for itself - which is 
true, and I even used that law to define the identity
The problem is only with the second part of the sentence, "trying" 
to identify Rebol values as "value slots", which is not useful, and 
wrong.
BrianH
22-Jan-2011
[7267x2]
And then you defined "value" to be something referred to by the value 
slot, not what was in the value slot, or the value slot itself. Without 
that definition, your definition of "identical" doesn't work. Which 
is why that was another way to look at it, the "other" in this case 
referring to way to look at what a value is and how to think of a 
value slot.
I'm not saying that any of these definitions are wrong, but yours 
is more useful.
Ladislav
22-Jan-2011
[7269]
I should probably explain, why I added the "and wrong" part. I did 
it, since not all Rebol values are representable using 128 bits or 
less. In that case we must have more than 128 bits no matter how 
fervently we wish something else
BrianH
22-Jan-2011
[7270x2]
Yeah. The main difference between what you are saying and what I'm 
saying is for that what you are referring to by values that don't 
fit in 128 bits, the values that are in the value slots are what 
I've been calling "reference values". Thus the distinction between 
"immediate" types and "reference" types. This is a similar situation 
to (primarily OOP) languages that make a distinction between boxed 
and unboxed values, except for us even the "unboxed" values are in 
a box: the value slot. Making this distinction lets us reuse the 
large amount of existing reasoning that has been applied to OOP languages. 
This is particularly helpful when we are trying to solve the same 
problems that many other languages are, but the existing research 
on those problems is being done by people working in those other 
languages. Finding comparable distinctions makes it easier to implement 
comparable solutions :)
For instance, I'd hate to have to start from scratch in creating 
a concurrency model, especially when we can start from the Go model 
instead.
Andreas
22-Jan-2011
[7272]
> except for us even the "unboxed" values are in a box: the value 
slot.


It's the extreme semantic overloading of "value", that is the problem 
here. :)
BrianH
22-Jan-2011
[7273]
Isn't it always? It all depends on what you value i guess :)
Andreas
22-Jan-2011
[7274x3]
Boxing is no good example in this case, as it describes something 
different.
But the terminology underlying the boxing process actually is useful, 
namely value types and reference types.
The immediate! typeset in R3 captures (or at least tries to) the 
former.
BrianH
22-Jan-2011
[7277]
And we didn't make a typeset for the latter because not existing 
in the former is enough.
Andreas
22-Jan-2011
[7278x2]
And Ladislav's "Identify" article is exceedingly useful in defining 
meaningful dimensions of the term "value" in REBOL's context.
Specifying a "REBOL value" as the sum of it's attributes, for example.