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Given this:

struct { int x; } ix;

struct A { A() {}; int x; };
A ia;

Which of these is true?

a. ix is an object
b. ia is an object
c. both are objects
d. both are not objects.
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Feh. Too much arguing below. Anyone who actually got their degree in computer science and attended classes can read the question for what it is and not the semantically separated construct of what they would like to argue about. The "object" in question is clearly meant to refer to an instance of a class, i.e. a reference variable that is stored on the heap. Which the structure is not. +1 just for stirring up the hornet nest. –  Joel Etherton Jan 20 '10 at 2:00
@Joel: neither ix not ia is stored on the heap. They're either globals or automatics depending where the definitions occur, but I see no uses of new or malloc/calloc. Both are what C++ calls "class objects", despite the fact that their classes are defined with struct, and the fact that ix's type has no name. –  Steve Jessop Jan 20 '10 at 2:03
@Joel: Since when was "must be stored on the heap" a requirement for a class? I don't know if you've noticed, but this question is tagged C++, and in C++, class objects can be stored on the stack just fine. –  jalf Jan 20 '10 at 3:08
and of course, even in languages such as C# or Java, where class objects just so happen t obe heap-allocated, that's an implementation detail, hardly a requirement for the concept of a class in the OOP sense. –  jalf Jan 20 '10 at 3:28

9 Answers 9

up vote 10 down vote accepted

Many of these answers have ignored the C++ tag. In C++, "an object is a region of storage. [Note: a function is not an object, regardless of whether or not it occupies storage in the same way that objects do.]" (The C++ Standard, 1.8/1).

If the homework question is about C++, then no other definition of object is applicable, not even "anything that is visible or tangible and is relatively stable in form" (dictionary.reference.com). It's not asking for your opinion about OOP principles, it's in effect asking whether ix and ia are variables.

Since it's homework I'll not tell you the answer, but do note that struct { int x; } ix; is not the same thing as struct ix { int x; };.

On the other hand, if the homework assignment is about OOP principles, then knock yourself out with whatever definition your lecturer has given you of "object". Since I don't know what that is, I can't tell you what answer he'll consider correct...

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It is a C++ intro class. My answer would be they both are objects in C++ –  Murali Jan 20 '10 at 1:54
+1: for the Standard lookup –  Kornel Kisielewicz Jan 20 '10 at 1:57
Yes, that'd be my answer too. In fact, (a), (b) and (c) are all true, so it's pretty hard to give a wrong answer ;-). If the instructor disagreed with (c), I'd ask for better questions in future... –  Steve Jessop Jan 20 '10 at 1:57
@Kornel: Correct. In C++, that x is an object. –  Steve Jessop Jan 20 '10 at 2:00
@Martin: I thought it was strange you didn't know. :) Your comment was stated strangely. :p –  GManNickG Jan 20 '10 at 2:20

Given the C++ tag, the answer is pretty much "take your choice."

The C standard defines an object as meaning (in essence) anything that has an address, including all instances of native/primitive types (e.g. int). Since C++ depends so heavily on C, that definition still carries some weight in C++. By this definition, essentially every variable is an object, and so are a few other things (e.g. character string literals, dynamically allocated blocks of memory).

In Smalltalk (at rather the opposite extreme) the answer would be none of them is an object -- an object never has public data. Its behavior is defined entirely in terms of responses to messages.

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The word "object" is a rather ambiguous specification without some more context, but in general objects have identity, behavior, and state.

Neither ix nor ia have all three; ix fails because it lacks identity or behavior, and ia fails because it has no behavior. Both are essentially just blobs of data.

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Why does an object need behavior. I think state is enough to classify you as an object. –  Loki Astari Jan 20 '10 at 1:42
that is what I thought, but my instructor insists A has a constructor and that an instance of a class/struct constructed makes it an object. –  Murali Jan 20 '10 at 1:44
@Martin: I don't agree. int x = 5; allows x to hold state, but is an int (the primitive) an object? –  John Feminella Jan 20 '10 at 1:50
@John : heh, I just asked the same question on Martin's answer :P –  Kornel Kisielewicz Jan 20 '10 at 1:53
@John: No int is NOT an object (it is a type). But x is an object. –  Loki Astari Jan 20 '10 at 1:55

There are two commonly used definitions of "object" in C++.

One is official according to the C++ standard, and says that everything that has storage allocated for it is an object. A struct is an object, an int is an object, a bool is an object, a pointer is an object, a string literal is an object, and so on. By this definition, ix, ia and x are all objects. But this probably isn't what your teacher meant. You have to be a bit of a language lawyer to use this definition, and it's not that widely known among "average" C++ users. It's also not a very relevant definition for someone just learning the language.

The definition you are probably expected to use is that of an "object" in the object-oriented sense. Here (at least in the C++ family of languages), an object is typically meant to be an instance of a class.

Which leaves the next obvious question: Is an instance of a struct also an object? Depends. In C++, a class and a struct are essentially the same, so semantically, yes, but technically, you're not using the class keyword, so syntactically, probably not.

In short: It's a silly, and badly worded question, and only you know what your teacher means or wants to hear, because you're the one who attended the classes, not us. All we can do is guess at what he thinks defines a class.

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How is it being a language-lawyer to use the C++ definition, but not being a language-lawyer to say that although there are two different keywords which can be used to define a class, "technically" if you use the one not spelled c-l-a-s-s, it's not really a class and hence its instances are not really objects? If the intent of the question is to teach the students that structs are not classes, then frankly the question can FRO ;-) –  Steve Jessop Jan 20 '10 at 5:25
And OK, saying "an int is an object" wouldn't be popular in an "introduction to C++ and OOP" class. At least, not among people used to Java. Among people used to Smalltalk or Ruby, maybe a C++ int is a (poor, crippled) object, simply because objects is what things are. It's just a really rubbish object, with no members other than the ones implicitly invoked by operators ;-) –  Steve Jessop Jan 20 '10 at 5:27
It's not a very helpful definition. The only reason C++ objects have a name at all is so that the standard has a simple way to refer to "stuff that has a type and is in memory". That's not helpful to people learning C++. It's not even useful to you or me, really. Except, again, as a way to be formal and refer back to the standard. Hence the language lawyer comment. You have to care about the precise wording, more than about what's actually useful to know, in order to find the C++ standard definition of "object" useful. –  jalf Jan 20 '10 at 6:08
To someone learning C++'s flavor of OOP, the OOP meaning of "object" is relevant. And to someone learning C++ without touching on OOP, the word "object" shouldn't really need to feature at all –  jalf Jan 20 '10 at 6:09
"the OOP meaning". Or at any rate an OOP meaning. As I said in my answer, if you think the question is about an OOP sense of object, then you need to know which one. We've seen at least three in different answers to this question. I genuinely don't think OOP meanings of object are useful to me either, which is why I don't mind at all that the C and C++ standards use the word as jargon, and I gratefully use the same jargon when talking about those languages. –  Steve Jessop Jan 20 '10 at 13:08

These questions are impossible to answer without extra clarification. The question is tagged C++, which means that the language is supposedly C++.

In this case, if the declarations are made in namespace scope, the ix declaration is invalid. It is illegal to use an unnamed class type (which has no linkage) to declare an object with external linkage. The declaration of ix would work in local scope

void foo() {
  struct { int x; } ix; // OK, no linkage

It might also work if ix was declared with internal linkage at namespace scope

static struct { int x; } ix; // OK? Internal linkage?

although I personally believe that this was intended to be ill-formed as well (Comeau somehow allows it).

But a namespace-scope declaration with external linkage is ill-formed

// In namespace scope
struct { int x; } ix; // ERROR

So, if the namespace scope is assumed and if the above declarations are meant to be taken as a single piece of code, there are no meaningful answers to these questions. The whole code is simply invalid. It is meaningless. It is not C++.

Otherwise, if ix is declared with no linkage (local) or with internal linkage, then ix is an object.

As for ia, it is an object regardless of where it is declared, since the class type is named.

Note though that the notion of object in C++ has nothing to do with classes. Object in C++ is a region of storage (memory). A variable of int type is an object in C++, for one example.

Added later: The bit about legality of ix declaration is an interesting issue. Apparently C++98 allowed such declarations, which was proposed to be outlawed in DR#132. However, later the proposal was rejected (for a rather weird reason) and the things were left as is. Yet, Comeau Online refuses to accept a declaration of an object with external linkage with unnamed type (internal linkage is OK). It could quite possibly be a formal bug in Comeau compiler (not that I'd complain about it).

Added even later: Oh, I see that there's an even later DR#389, which finally outlaws such declarations, but the status of this DR is still CD1.

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And this is why it is vitally important that anyone who knows C++ stay well clear of introductory C++ classes ;-) –  Steve Jessop Jan 20 '10 at 2:21

By my definition, I'd say an object has properties and methods. Both nouns and verbs.

You can kick a ball, you can invade a country, and you can eat, milk, or punch a cow. Those are therefore objects.

You might have a data structure that represents the properties of a ball (radius), country (population), or cow (daily milk output in liters), but that data structure doesn't represent an object in my mind until you tell it how to process pertinent behaviors.

I recognize this definition may not work in 100% of cases, but it's close enough for my needs.

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I use objects of type int to represent my cows. I only need to store thier weight in version 1. –  Loki Astari Jan 20 '10 at 2:00
@Martin: Good choice, YAGNI. –  Steve Jessop Jan 20 '10 at 2:18

Technically, an object is an instance of a class, but objects' true usefulness lies in their ability to encapsulate information and aid in the design of systems. They are an analysis tool.

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An object is an instnace of a type (be it POD or class).

As such you are able to extract the address of an object. All objects take up at least one byte. The reason for this is that you don't have to add special code for handling zero sized objects because every object in memory has a destinct address (by making everything at least one byte the compiler will automatically have a unique address for each object).

int main()
    struct { int x; } ix; 

    struct A { A() {}; int x; }; 
    A ia;

    ix.x = 5; // Assigned a value.
              // Thus it has state and thus is an object.

    ia.x = 6; // Assigned a value.

So they are both objects.

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so int x = 6 is an object? –  Kornel Kisielewicz Jan 20 '10 at 1:50
@Kornel: So x is an object. –  Loki Astari Jan 20 '10 at 1:54
@Martin: amusing, yet correct :) –  Kornel Kisielewicz Jan 20 '10 at 2:03
I believe that this code is ill-formed. A type with no linkage (an unnamed class) cannot be used to declare an entity with linkage (ix is declared with external linkage). –  AndreyT Jan 20 '10 at 2:25
@AndreyT: it compiles fine on VC9, not that it means anything :> –  Kornel Kisielewicz Jan 20 '10 at 2:28

The real answer is "e. Whoever writes code like this should be coached to improve their legibility." Okay, that was a joke.

This question isn't so complex. But elsewhere, I've seen programming tests written purposely complex for the purpose of seeing if you can solve puzzles. It's completely pointless, because code that is that complex shouldn't and usually does not exist. If it's that hard to read, it's poorly written code.

Remember, code is not written for computers. Code is written for the next developer after you to read and understand.

And don't write code just so it works. That's not a high enough standard. The worst junk in the world will run, but it's a nightmare to fix or upgrade.

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What does the complexity of code you've seen for programming tests elsewhere have to do with anything? –  jalf Jan 20 '10 at 3:40
Which of these is true? a, b, c, d. That's a test question. And the code you would never see anywhere. It's formatted pooly, has no comments, etc. It's purposely complex in order to teach you something, force your eyeballs to go zig zag to get the concept. The fact that this is a prime example of an antipattern in the industry seems relevant. –  maxpolk Jan 20 '10 at 4:15
But your answer says "the code is bad. Actually it's not bad, but I've seen bad code elsewhere which was bad", and then it segues into a rant about that. This is not a "prime example" of anything, because you just so happened to say in your question that "this question isnt so complex". If your post is nothing more than an excuse to rant about complex code seen elsewhere, then it belongs on a blog, not here. And it is not a "prime example" if code elsewhere is an even better example. –  jalf Jan 20 '10 at 13:22

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