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From: Darren New
Subject: Another "This is why I..."
Date: 26 May 2009 16:22:10
Message: <4a1c4f72@news.povray.org>
This is why I don't mind an OO language where every object is a reference 
object. Most of what I do that needs OO is this sort of programming.

http://msdn.microsoft.com/en-us/magazine/dd419654.aspx

(DDD is pretty common, not just Microsoft stuff, so it has wikipedia pages 
and stuff. This just happened to be a decent explanation link.)

So objects that have an identity are always unique, and objects that aren't 
unique are value objects that are read-only (so it doesn't matter if they're 
values or references).

I actually have a pretty hard time coming up with a class I think should be 
both read/write and copyable, at least without some custom "clone" function. 
Maybe something internal to the design,like an iterator, but needing to 
explicitly copy such a thing doesn't seem like a bad idea to me.

-- 
   Darren New, San Diego CA, USA (PST)
   There's no CD like OCD, there's no CD I knoooow!


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From: Warp
Subject: Re: Another "This is why I..."
Date: 26 May 2009 16:56:34
Message: <4a1c5782@news.povray.org>
Darren New <dne### [at] sanrrcom> wrote:
> I actually have a pretty hard time coming up with a class I think should be 
> both read/write and copyable, at least without some custom "clone" function. 

  I might not have understood exactly what you are talking about, but two
examples come to mind: A class which represents a numerical value (eg. a
complex or a rational number), and a pixel class.

  The class which represents a numerical value is a good example of a
value-based object for which reference semantics make little sense (beyond
being used as function parameters so that the function can change the
original value rather than the local copy). If you use ints in a value-based
way, it would feel natural to use eg. a complex number class in the same way.

  The advantage of value-based objects is that they are both fast and
consume less memory when instantiated in large amounts (eg. into an array).
An array of numerical objects is going to consume considerably less memory
than an array of references to numerical objects. They are also fast because
passing references around is most probably not going to have a speed
advantage over passing object copies around, especially since cloning
objects is always slower than copying the values of the objects.

  A pixel class is another good example. Maybe even a better example.
A pixel is often an object which has the same size as the natural word
size of the architecture (eg. 32 bits), or at most double that (at least
if you are using integral color components). A pixel class is also something
which is usually instantiated *a lot*, as well as copied and modified
extensively.

  If you are making a program which handles huge images (or even animations),
you really *don't* want to waste memory needlessly on references to pixels.
You really want arrays of pixel objects, because that's the most efficient
way of storing raw images in memory.

  This is one of the main reasons why I dislike the design of the Java
language. You simply *can't* have both abstraction *and* efficient memory
usage of small objects. In Java all objects are allocated dynamically, and
there's no other way of handling those objects than through references.
This is a huge waste of space and resources with something like a pixel
class.

  The only alternative is to completely bypass encapsulation and directly
use arrays of ints. This flushes all what's good and useful in OOP down
the drain.

-- 
                                                          - Warp


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From: Darren New
Subject: Re: Another "This is why I..."
Date: 26 May 2009 21:30:19
Message: <4a1c97ab$1@news.povray.org>
Warp wrote:
> Darren New <dne### [at] sanrrcom> wrote:
>> I actually have a pretty hard time coming up with a class I think should be 
>> both read/write and copyable, at least without some custom "clone" function. 
> 
>   I might not have understood exactly what you are talking about, but two
> examples come to mind: A class which represents a numerical value (eg. a
> complex or a rational number), and a pixel class.
> 
>   The class which represents a numerical value is a good example of a
> value-based object for which reference semantics make little sense 

Right. But it also makes no sense for it to be read/write.

I can't think of examples that should be modifiable *and* copyable. If it's 
modifiable, you don't want multiple copies floating about.

>   The advantage of value-based objects is that they are both fast and
> consume less memory when instantiated in large amounts (eg. into an array).

I'm speaking of semantics, not efficiency. In Smalltalk (and most LISP 
implementations), for example, integers are just like any other object. But 
since they don't have any post-construction members that modify the object, 
they can be represented internally as values.

If your value is "money" you'll want a class with value semantics. If your 
value is "city+state+postal code" you likely want a pointer to a 
non-modifiable value.

I *really* don't see a good use for classes that can be values or references 
both, depending on the variable, like C++ allows. Sure, a class that's a 
value class? Yep. But individual objects having either value or reference 
semantics depending on how you declared the variable holding them? Seems 
like overkill to me. Do any good examples come to mind?

>   A pixel class is another good example. Maybe even a better example.
> A pixel is often an object which has the same size as the natural word
> size of the architecture (eg. 32 bits), or at most double that (at least
> if you are using integral color components). A pixel class is also something
> which is usually instantiated *a lot*, as well as copied and modified
> extensively.

I don't think you really modify pixels, do you? You create a new pixel and 
store it over top of the previous pixel. You wouldn't want to modify a pixel 
and have all the red pixels in your image turn blue or something, no?

I also don't see any good point for making pixels or integers into objects 
if you have the choice not to. (Obviously, if you're running Smalltalk and 
*everything* is an object, including the stack and the executable code, it's 
different.) But I don't see any compelling reason to code like pixels have 
"behavior" and "state" as such.  Images don't saturate themselves, nor do 
pixels, for example. IIRC, in Smalltalk, pixels weren't objects. You had 
bitmaps as the objects, and if you needed you could make a one-pixel bitmap, 
but all of the methods were designed for big bitmaps.

>   This is one of the main reasons why I dislike the design of the Java
> language. You simply *can't* have both abstraction *and* efficient memory
> usage of small objects. In Java all objects are allocated dynamically, and
> there's no other way of handling those objects than through references.
> This is a huge waste of space and resources with something like a pixel
> class.

I don't think that would be as much of a problem if you could use something 
other than objects in Java. I.e., if you could declare a "structure" and 
deal with it that way, I don't see the problem much.

>   The only alternative is to completely bypass encapsulation and directly
> use arrays of ints. This flushes all what's good and useful in OOP down
> the drain.

Kinda. Only if you don't want a class that's "image" (or "bitmap") to be the 
lowest level in your class hierarchy. Now, obviously I haven't written as 
much complex OO image processing software as you have :-) but I wouldn't use 
OO inside the loop.

Unless your compiler is smart enough to ditch the vptr (or its equivalent) 
when you put the pixel into an array-of-pixels, I don't see using 
distinguished-caller syntax as all that beneficial. And in languages that 
don't use distinguished-caller syntax, you can't even easily tell by looking 
at the interface that a pixel without any virtual methods isn't an object, 
for the languages I know that don't use distinguished caller syntax.

-- 
   Darren New, San Diego CA, USA (PST)
   There's no CD like OCD, there's no CD I knoooow!


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From: Warp
Subject: Re: Another "This is why I..."
Date: 27 May 2009 03:40:48
Message: <4a1cee80@news.povray.org>
Darren New <dne### [at] sanrrcom> wrote:
> >   The class which represents a numerical value is a good example of a
> > value-based object for which reference semantics make little sense 

> Right. But it also makes no sense for it to be read/write.

  It doesn't make sense for a numerical variable to be read/write? There's
definitely something I'm not understanding here.

  How do you use, let's say for example, a value-based loop counter variable
if it's not read/write? I can't even bend my mind to figure out how you could
construct a loop with a read-only variable.

> I can't think of examples that should be modifiable *and* copyable. If it's 
> modifiable, you don't want multiple copies floating about.

  Maybe we are having a different notion of what "copyable" means, because
I'm not really understanding.

> >   A pixel class is another good example. Maybe even a better example.
> > A pixel is often an object which has the same size as the natural word
> > size of the architecture (eg. 32 bits), or at most double that (at least
> > if you are using integral color components). A pixel class is also something
> > which is usually instantiated *a lot*, as well as copied and modified
> > extensively.

> I don't think you really modify pixels, do you? You create a new pixel and 
> store it over top of the previous pixel. You wouldn't want to modify a pixel 
> and have all the red pixels in your image turn blue or something, no?

  I'm not understanding what you are saying.

  It sounds to me like splitting hairs with semantics. Is "a = 5" modifying
the value of 'a', or is it creating a "new integral value, 5, and storing
it over the old value of 'a'"?

  Internally it's modifying the variable 'a' (the memory location
represented by that variable name is modified to have a new value).
On the language level it's modifying the value of the variable 'a'.
I'm really not seeing how it's not really modifying 'a', but somehow
"creating a new integral value".

  The same with a pixel object. I could say, for example, something like
"image[x][y].setRed(123);" and by doing that I'm *modifying* the value of
the pixel in question. Nothing new is created and nothing is being copied
around. Instead, the pixel object is being modified in-place.

> I also don't see any good point for making pixels or integers into objects 
> if you have the choice not to.

  Then you have a rather odd concept of how useful encapsulation is.

  What would, in your opinion, be the best way of abstracting away the
internal structure of a pixel so that the code used to handle pixels can
be reused for different purposes? If you want to be able to later modify
the internal structure and/or functionality of a pixel in a centralized
place and in such way that it doesn't break existing code, I don't see
any better alternative than encapsulation, and an object-oriented class
is just perfect for this purpose.

> But I don't see any compelling reason to code like pixels have 
> "behavior" and "state" as such.

  Need for "behavior" could be a question of opinion, but pixels not
having state? Exactly how do you expect to store pixel data anywhere if
that somewhere has no state? How do you expect something with no state
to remember the value of the pixel? That seems completely incoherent to me.

>  Images don't saturate themselves, nor do 
> pixels, for example.

  I'm not exactly sure if by "saturate" you are talking about modifying
an image, or something completely different I'm not familiar with. If you
are talking about modifying the image, then why not? Why couldn't you be
able to tell an image "saturate by this amount" and then it does that?

> IIRC, in Smalltalk, pixels weren't objects. You had 
> bitmaps as the objects, and if you needed you could make a one-pixel bitmap, 
> but all of the methods were designed for big bitmaps.

  What does it matter what kind of libraries some programming language
offers? The creators of those libraries made their own design decisions,
but why should that matter? I'm talking about your own code.

  Don't tell you you *can't* create a pixel class in Smalltalk.

> Unless your compiler is smart enough to ditch the vptr (or its equivalent) 
> when you put the pixel into an array-of-pixels

  Why do you think I like C++?

  Sure, I can leak and trash memory and crash the program with C++, but
when I know what I'm doing (and I pretty much do), it allows me to do
things efficiently while still maintaining a relly high level of
encapsulation and abstraction.

  Classes with no virtual functions have no vptr. Is this sometimes a
pain in the neck? Maybe. However, when you know what you are doing, it
allows you to write really efficient code.

-- 
                                                          - Warp


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From: Darren New
Subject: Re: Another "This is why I..."
Date: 27 May 2009 12:14:35
Message: <4a1d66eb@news.povray.org>
Warp wrote:
> Darren New <dne### [at] sanrrcom> wrote:
>>>   The class which represents a numerical value is a good example of a
>>> value-based object for which reference semantics make little sense 
> 
>> Right. But it also makes no sense for it to be read/write.
> 
>   It doesn't make sense for a numerical variable to be read/write? There's
> definitely something I'm not understanding here.

It doesn't make sense for a numerical *instance* to be read-write. When you 
say a = b + c, you're not modifying b or c or the old value of a. You're 
replacing what's in 'a' with a new value.

You say "x = sin(x)", not "x.sin()"

>   How do you use, let's say for example, a value-based loop counter variable
> if it's not read/write? I can't even bend my mind to figure out how you could
> construct a loop with a read-only variable.

Not variable. Value. Same variable, different values.

Look at something that makes sense to maybe be read/write, like strings. 
Contrast "name = trim(name)" with "name.trim()".

>> I can't think of examples that should be modifiable *and* copyable. If it's 
>> modifiable, you don't want multiple copies floating about.
> 
>   Maybe we are having a different notion of what "copyable" means, because
> I'm not really understanding.

By "read/write", I mean a value where you can invoke a method that changes 
the actual value of the instance. Same instance, new value. A class in C++ 
that has methods that aren't marked "const" would be an example.

By "copyable", I mean a instance where assigning the value that's now in one 
variable to a second variable gives you a new instance in the second 
variable that can be modified independently of the value in the first 
variable. Something in C++ with the default copy constructor being public 
would be an example.

In other words, I find it hard to come up with good examples where you can 
do both of these:

a) modify the values inside the class, such that if you have multiple 
pointers/references/etc to the instance, all holders of that pointer will 
see the changes, and

b) have the ability to create a new instance with all the same values.

The reason being that if you can modify a shared instance, and also *copy* 
the shared instance, then you can wind up with the copies being out of sync 
with each other. And if you can modify values in place, then conceptually 
the object actually represents something independent of where it is stored, 
so making multiple copies implies duplicating whatever that instance represents.

>   I'm not understanding what you are saying.
> 
>   It sounds to me like splitting hairs with semantics. Is "a = 5" modifying
> the value of 'a', or is it creating a "new integral value, 5, and storing
> it over the old value of 'a'"?

The latter.

My point is that if you do
a = 5; b = a; a = 7;
you're not changing the value in b.

If you do
a = "  hello   ";  b = a;  a.trim();
are you changing the value in b?

>   Internally it's modifying the variable 'a' (the memory location
> represented by that variable name is modified to have a new value).
> On the language level it's modifying the value of the variable 'a'.
> I'm really not seeing how it's not really modifying 'a', but somehow
> "creating a new integral value".

It's modifying 'a'. It's not modifying '5'.  So in this case, you have an 
instance that's not modifiable. If you say "a = 5;" there's then nothing you 
can do to '5' to change 'a'.

>   The same with a pixel object. I could say, for example, something like
> "image[x][y].setRed(123);" and by doing that I'm *modifying* the value of
> the pixel in question. Nothing new is created and nothing is being copied
> around. Instead, the pixel object is being modified in-place.

Right. Now, why would you want multiple classes holding pointers to the same 
pixel?  I'm not talking "use a pointer so you can change the value inside a 
function because we don't really have pass by reference" pointers (a la C). 
I'm talking about long-term use of multiple instances of some class with 
pointers to the same pixel. What other classes would declare a member 
variable holding "pointer to pixel"?

>> I also don't see any good point for making pixels or integers into objects 
>> if you have the choice not to.
> 
>   Then you have a rather odd concept of how useful encapsulation is.

There are lots of ways to encapsulate stuff that doesn't involve making the 
pixel an object. To me, OO is a lot more than just a namespace holding a 
bunch of functions. I wouldn't use OO for encapsulation. I'd use encapsulation.

If your only encapsulation mechanism is OO, then sure, you're kind of stuck 
with that.

>> But I don't see any compelling reason to code like pixels have 
>> "behavior" and "state" as such.
> 
>   Need for "behavior" could be a question of opinion, but pixels not
> having state? Exactly how do you expect to store pixel data anywhere if
> that somewhere has no state? How do you expect something with no state
> to remember the value of the pixel? That seems completely incoherent to me.

Well, generally "state" implies "behavior". Otherwise it's just a value. 
There's no "state" in a pixel because there's no "state transitions" that 
make sense or don't make sense. I.e., there's no state such that you could 
reasonable put invariants on the instances or preconditions on the methods 
that you could enforce.

It's kind of a conceptual thing, really. Obviously it's all *implemented* as 
fields in the structure holding the data.

>>  Images don't saturate themselves, nor do 
>> pixels, for example.
> 
>   I'm not exactly sure if by "saturate" you are talking about modifying
> an image, or something completely different I'm not familiar with. If you
> are talking about modifying the image, then why not? Why couldn't you be
> able to tell an image "saturate by this amount" and then it does that?

(By "saturate" I meant turning up the intensity of the hue.)

OK. Perhaps a bad example, there. Images saturate themselves. I suppose if 
you wanted to push it, you could have images having a saturate() member that 
  iterates over each pixel, calling saturate() for the pixel. You couldn't 
do that with something like "blur", tho, since that involves multiple 
pixels. So you're likely to have some sort of class that represents a 
collection of pixels anyway.

>> IIRC, in Smalltalk, pixels weren't objects. You had 
>> bitmaps as the objects, and if you needed you could make a one-pixel bitmap, 
>> but all of the methods were designed for big bitmaps.
> 
>   What does it matter what kind of libraries some programming language
> offers? The creators of those libraries made their own design decisions,
> but why should that matter? I'm talking about your own code.

I was giving an example, is all.

>   Don't tell you you *can't* create a pixel class in Smalltalk.

Of course you can. It's just going to be fiendishly inefficient, just like 
it would be in Java. I was explaining how, in a language where an individual 
pixel is inefficient, the designers of the class library used a container as 
the lowest-level element in the graphics library.

>> Unless your compiler is smart enough to ditch the vptr (or its equivalent) 
>> when you put the pixel into an array-of-pixels
> 
>   Why do you think I like C++?

Really?  You can have a pixel with virtual functions, and then the vptr goes 
away when you assign it into an array? So a pixel with virtual functions 
takes at least two words of memory, but an array of 100 pixels only takes 
100 words of memory?

Hmmm. Yes, actually, now I think I understand that. You wind up "slicing" 
off the subclass, right? So you actually copy the subclass of the pixel into 
the array by copying it into an instance of the superclass?

Yeah, OK. Now I see why you might *ever* want to do that. It seemed like 
just brokenness to me before. :-)

Let me see if I have this straight:

class alpha {
   public:
     virtual void xyz() { ... };
     alpha(long x) { pdq = x; }
     long pdq;
   }
class beta : alpha {
   public: virtual void xyz() { ... };
   beta(long x) { pdq = x; }
   }

alpha * b = new beta(123);
alpha a = b;
alpha c[100];

Now, at this point, what is the sizeof(a) and the sizeof(c)?
Is c 100 longs, or is it 100 longs plus 100 vptrs?
If the former, then I understand what you're saying and
now understand why C++ does slicing that way.


>   Sure, I can leak and trash memory and crash the program with C++, but
> when I know what I'm doing (and I pretty much do), it allows me to do
> things efficiently while still maintaining a relly high level of
> encapsulation and abstraction.

Sure. Once you're good at it and you can find the libraries you need and 
know where the non-portable bits are, I can see where it's useful. Obviously 
there's a reason lots of people like it.

>   Classes with no virtual functions have no vptr. Is this sometimes a
> pain in the neck? Maybe. However, when you know what you are doing, it
> allows you to write really efficient code.

Sure.

-- 
   Darren New, San Diego CA, USA (PST)
   There's no CD like OCD, there's no CD I knoooow!


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From: Warp
Subject: Re: Another "This is why I..."
Date: 27 May 2009 13:31:06
Message: <4a1d78da@news.povray.org>
Darren New <dne### [at] sanrrcom> wrote:
> It doesn't make sense for a numerical *instance* to be read-write. When you 
> say a = b + c, you're not modifying b or c or the old value of a. You're 
> replacing what's in 'a' with a new value.

  By that definition no language ever modifies any variable.

> >   I'm not understanding what you are saying.
> > 
> >   It sounds to me like splitting hairs with semantics. Is "a = 5" modifying
> > the value of 'a', or is it creating a "new integral value, 5, and storing
> > it over the old value of 'a'"?

> The latter.

> My point is that if you do
> a = 5; b = a; a = 7;
> you're not changing the value in b.

  Of course you are. You are changing it to 5.

> If you do
> a = "  hello   ";  b = a;  a.trim();
> are you changing the value in b?

  Depends on the semantics of the type.

> >> Unless your compiler is smart enough to ditch the vptr (or its equivalent) 
> >> when you put the pixel into an array-of-pixels
> > 
> >   Why do you think I like C++?

> Really?  You can have a pixel with virtual functions, and then the vptr goes 
> away when you assign it into an array?

  No. I can have a pixel with no vptr, and I can store such pixels in an
array. Unlike in many other languages.

-- 
                                                          - Warp


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From: Darren New
Subject: Re: Another "This is why I..."
Date: 27 May 2009 13:48:44
Message: <4a1d7cfc$1@news.povray.org>
Warp wrote:
> Darren New <dne### [at] sanrrcom> wrote:
>> It doesn't make sense for a numerical *instance* to be read-write. When you 
>> say a = b + c, you're not modifying b or c or the old value of a. You're 
>> replacing what's in 'a' with a new value.
> 
>   By that definition no language ever modifies any variable.

Not true.

class customer {
   public: int age; string name;
    void setage(int newage) { this.age = newage; }
}
customer fred;
fred.setage(23);
fred.setage(17);

You definitely change fred twice there. You replaced the value of fred.age, 
but in so doing changed the value of fred.

If you're using java and you say

customer fred = new customer();
fred.setage(23);
customer barney = fred;
writeln(barney.age);
fred.setage(17);
writeln(barney.age);

you're going to get two different outputs for barney's age. In C++ (as 
written) you won't, because the assignment to barney isn't an assignment of 
identity but an assignment of value.

>> My point is that if you do
>> a = 5; b = a; a = 7;
>> you're not changing the value in b.
> 
>   Of course you are. You are changing it to 5.

Right. You're not changing the value in b when you assign 7 to a.

>> If you do
>> a = "  hello   ";  b = a;  a.trim();
>> are you changing the value in b?
> 
>   Depends on the semantics of the type.

That's my point. I can't think of any class where you'd realistically want 
to choose on a variable-by-variable basis or a value-by-value basis. 
Certainly not when doing DDD. Maybe when doing scientific stuff it's more 
common?

It just doesn't seem like the right way to do OOD, because to me you either 
have a class that represents an entity (and thus has an identity and thus 
makes no sense to copy and thus must be shared via references) or you have a 
class that represents a value (and thus must be read-only if shared, and 
hence if the object is much bigger than a pointer it might reasonably save 
space to represent it that way, a la "flyweight" pattern).

In this case, a raw string obviously doesn't represent an entity in the real 
world, so the answer *should* be "you don't change b".

>>>> Unless your compiler is smart enough to ditch the vptr (or its equivalent) 
>>>> when you put the pixel into an array-of-pixels
>>>   Why do you think I like C++?
> 
>> Really?  You can have a pixel with virtual functions, and then the vptr goes 
>> away when you assign it into an array?
> 
>   No. I can have a pixel with no vptr, and I can store such pixels in an
> array. Unlike in many other languages.

Oh, OK. To me, conflating encapsulation with class with inheritance is a 
"bad" thing to do in OOD. It leads to having things like classes *and* 
namespaces, or to "friend" functions and "friend" classes, etc.

Actually, it seems to me that in C++ if you're going to allow "stripping" an 
instance to its superclass, you should be able to get rid of the vptr in the 
case that you're not operating thru a pointer or reference. I didn't think 
the language currently works that way and you confirmed that, but it seems 
like it might be a space savings, as you say.

But, as I tried to say, if you're modeling the real world via OO, having 
nothing but references isn't much of a problem. It's certainly not a problem 
if you have classes that are either value classes or reference classes, and 
you can't pick on a variable-by-variable basis which it is. (I.e., it 
shouldn't be a problem to have value classes to which you can't take an 
explicit pointer. C++-style references are of course still useful for 
pass-by-reference type stuff if the language doesn't otherwise support 
pass-by-reference.)

-- 
   Darren New, San Diego CA, USA (PST)
   There's no CD like OCD, there's no CD I knoooow!


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From: Warp
Subject: Re: Another "This is why I..."
Date: 27 May 2009 14:22:06
Message: <4a1d84ce@news.povray.org>
Darren New <dne### [at] sanrrcom> wrote:
> >> My point is that if you do
> >> a = 5; b = a; a = 7;
> >> you're not changing the value in b.
> > 
> >   Of course you are. You are changing it to 5.

> Right. You're not changing the value in b when you assign 7 to a.

  Uh? That's because you are changing the value of a, not the value of b.

-- 
                                                          - Warp


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From: Darren New
Subject: Re: Another "This is why I..."
Date: 27 May 2009 14:39:41
Message: <4a1d88ed$1@news.povray.org>
Warp wrote:
> Darren New <dne### [at] sanrrcom> wrote:
>>>> My point is that if you do
>>>> a = 5; b = a; a = 7;
>>>> you're not changing the value in b.
>>>   Of course you are. You are changing it to 5.
> 
>> Right. You're not changing the value in b when you assign 7 to a.
> 
>   Uh? That's because you are changing the value of a, not the value of b.

Yes! Precisely. You're not changing the value of 5. You're changing the 
value of 'a'.

Contrast with
a = " hello  "; b = a;  a.trim();

Whether you changed 'b' depends on whether string literals have value or 
reference semantics. *Unless* strings are read-only, in which case a.trim() 
returns a new string which gets discarded.

-- 
   Darren New, San Diego CA, USA (PST)
   There's no CD like OCD, there's no CD I knoooow!


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From: Darren New
Subject: Re: Another "This is why I..."
Date: 27 May 2009 14:43:43
Message: <4a1d89df$1@news.povray.org>
Darren New wrote:
> Warp wrote:
>> Darren New <dne### [at] sanrrcom> wrote:
>>>>> My point is that if you do
>>>>> a = 5; b = a; a = 7;
>>>>> you're not changing the value in b.
>>>>   Of course you are. You are changing it to 5.
>>
>>> Right. You're not changing the value in b when you assign 7 to a.
>>
>>   Uh? That's because you are changing the value of a, not the value of b.
> 
> Yes! Precisely. You're not changing the value of 5. You're changing the 
> value of 'a'.

Or, maybe more clearly....

a = 5; b = a; a++;

This doesn't change the value in 'b'. You're not incrementing the value in 
'a'. You're replacing the value in 'a' with a new value. Numbers are so 
familiar that you don't normally think of '5' as being an instance of an 
object, so it's hard to separate object from variable in ones mind with 
integers. That's why I gave the string example.

Note that in FORTRAN, the equivalent code would actually change the value in 
'b' as well.  (As in, all arguments get passed by reference, and you can 
actually change the storage location where the literal '5' is held, and you 
get screwed. Obviously not in all FORTRAN implementations, but...)

-- 
   Darren New, San Diego CA, USA (PST)
   There's no CD like OCD, there's no CD I knoooow!


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