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As title says, the meaning of both eludes me.

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17  
not really, depends on your native language and the context you're thinking in :) –  Maciek Sep 11 '09 at 12:47
67  
@Lasse: not true. A definition both defines and declares ;-) –  Steve Jessop Sep 11 '09 at 12:56
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Frankly, I had a lot of trouble learning which was which, so I didn't find the names obvious. I had no problem with the meanings, just which names to associate with the meanings. –  David Thornley Sep 11 '09 at 14:10
4  
Still, it's not a duplicate question, since this asks about C/C++, whereas that other question asked about all languages, or none, in general. It just has duplicate answers (since in that other question, some answers chose to ignore all language except C and/or C++). –  Steve Jessop Sep 11 '09 at 14:23
1  
@DavidThornley I use this trick: a definition gives a finer description of a given variable or function. To remember this, I recall that the middle of the word "definition" has a resemblance to the word "finer". :) –  Marco Leogrande Jul 27 '12 at 6:39

18 Answers 18

up vote 315 down vote accepted

A declaration introduces an identifier and describes its type, be it a type, object, or function. A declaration is what the compiler needs to accept references to that identifier. These are declarations:

extern int bar;
extern int g(int, int);
double f(int, double); // extern can be omitted for function declarations
class foo; // no extern allowed for class declarations

A definition actually instantiates/implements this identifier. It's what the linker needs in order to link references to those entities. These are definitions corresponding to the above declarations:

int bar;
int g(int lhs, int rhs) {return lhs*rhs;}
double f(int i, double d) {return i+d;}
class foo {};

A definition can be used in the place of a declaration.

An identifier can be declared as often as you want. Thus, the following is legal in C and C++:

double f(int, double);
double f(int, double);
extern double f(int, double); // the same as the two above
extern double f(int, double);

However, it must be defined exactly once. If you forget to define something that's been declared and referenced somewhere, then the linker doesn't know what to link references to and complains about a missing symbols. If you define something more than once, then the linker doesn't know which of the definitions to link references to and complains about duplicated symbols.


Since the debate what is a class declaration vs. a class definition in C++ keeps coming up (in answers and comments to other questions) , I'll paste a quote from the C++ standard here.
At 3.1/2, C++03 says:

A declaration is a definition unless it [...] is a class name declaration [...].

3.1/3 then gives a few examples. Amongst them:

struct S { int a; int b; }; // defines S, S::a, and S::b
struct S; // declares S

To sum it up: The C++ standard considers struct x; to be a declaration and struct x {}; a definition. (In other words, "forward declaration" is something of a misnomer, since there are no other forms of class declarations in C++.)

Thanks to litb (Johannes Schaub) who dug out the actual chapter and verse in one of his answers.

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@unknown: either your compiler is broken of you have mis-copied sbi's code. For example, 6.7.2(2) in N1124: "All declarations that refer to the same object or function shall have compatible type; otherwise, the behavior is undefined." –  Steve Jessop Sep 11 '09 at 13:09
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@Brian: "extern int i;" says that i is an int somewhere, don't worry about it. "int i;" means that i is an int, and its address and scope is determined here. –  David Thornley Sep 11 '09 at 14:05
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@Brian: You're wrong. extern int i is a declaration, since it just introduces/specifies i. You can have as many extern int i in each compilation unit as you want. int i, however, is a definition. It denotes the space for the integer to be in this translation unit and advices the linker to link all references to i against this entity. If you have more or less than exactly one of these definitions, the linker will complain. –  sbi Sep 11 '09 at 14:09
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@Brian int i; in file/global scope or function scope is a definition both in C and C++. In C because it allocates storage, and in C++ because it does not have the extern specifier or a linkage-specification. These amount to the same thing, which is what sbi says: in both cases this declaration specifies the object to which all references to "i" in that scope must be linked. –  Steve Jessop Sep 11 '09 at 14:14
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@unknown, beware you cannot redeclare members in class scope: struct A { double f(int, double); double f(int, double); }; invalid, of course. It's allowed elsewhere though. There are some places where you can declare things, but not define, too: void f() { void g(); } valid, but not the following: void f() { void g() { } };. What is a definition and what a declaration has subtle rules when it comes to templates - beware! +1 for a good answer though. –  Johannes Schaub - litb Sep 11 '09 at 16:54

From the C++ standard section 3.1:

A declaration introduces names into a translation unit or redeclares names introduced by previous declarations. A declaration specifies the interpretation and attributes of these names.

The next paragraph states (emphasis mine) that a declaration is a definition unless...

... it declares a function without specifying the function’s body

void sqrt(double);  // declares sqrt

... it declares a static member within a class definition

struct X
{
    int a;         // defines a
    static int b;  // declares b
};

... it declares a class name

class Y;

... it contains the extern keyword without an initializer or function body

extern const int i = 0;  // defines i
extern int j;  // declares j
extern "C"
{
    void foo();  // declares foo
}

... or is a typedef or using statement.

typedef long LONG_32;  // declares LONG_32
using namespace std;   // declares std

Now for the big reason why it's important to understand the difference between a declaration and definition: the One Definition Rule. From section 3.2.1 of the C++ standard:

No translation unit shall contain more than one definition of any variable, function, class type, enumeration type, or template.

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This is clearly one of the best answers, yet it is pretty far down the list. This is why stackoverflow is so discouraging some times :( –  allyourcode Jun 20 '11 at 2:18
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@allyourcode: The problem with your reasoning is that you're suggesting your idea of "clearly one of the best answers" is somehow more valuable than everybody else's. –  Lightness Races in Orbit Apr 14 '13 at 17:34
    
"declares a static member within a class definition" - This is true even if the static member is initialised, correct? Can we make the example struct x {static int b = 3; };? –  RJFalconer Mar 4 at 13:27
    
@RJFalconer You're correct; initialization does not necessarily turn a declaration into a definition (contrary to what one might expect; certainly I found this surprising). Your modification to the example is actually illegal unless b is also declared const. See stackoverflow.com/a/3536513/1858225 and daniweb.com/software-development/cpp/threads/140739/… . –  Kyle Strand Aug 14 at 17:08

There are interesting edge cases in C++ (some of them in C too). Consider

T t;

That can be a definition or a declaration, depending on what type T is:

typedef void T();
T t; // declaration of function "t"

struct X { 
  T t; // declaration of function "t".
};

typedef int T;
T t; // definition of object "t".

In C++, when using templates, there is another edge case.

template <typename T>
struct X { 
  static int member; // declaration
};

template<typename T>
int X<T>::member; // definition

template<>
int X<bool>::member; // declaration!

The last declaration was not a definition. It's the declaration of an explicit specialization of the static member of X<bool>. It tells the compiler: "If it comes to instantiating X<bool>::member, then don't instantiate the definition of the member from the primary template, but use the definition found elsewhere". To make it a definition, you have to supply an initializer

template<>
int X<bool>::member = 1; // definition, belongs into a .cpp file.
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4  
Awesome. +1000 for the last declaration and its explanation! –  Nawaz Jan 29 '12 at 11:21

Declaration "Somewhere, there exists a foo".

Definition: "...and here it is!"

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@LightnessRacesinOrbit: The problem with your reasoning is that you're suggesting your idea of "this is the perfect answer" is somehow more valuable than everybody else's. –  Paul Dulaney Apr 14 at 20:41

Declaration

Declarations tell the compiler that a program element or name exists. A declaration introduces one or more names into a program. Declarations can occur more than once in a program. Therefore, classes, structures, enumerated types, and other user-defined types can be declared for each compilation unit.

Definition

Definitions specify what code or data the name describes. A name must be declared before it can be used.

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1  
Yes. However, "class foo;" is a declaration. It tells the compiler that foo is a class. "class foo {};" is a definition. It tells the compiler exactly what sort of class foo is. –  David Thornley Sep 11 '09 at 14:01
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The exception are class member names which may be used before they're declared. –  Johannes Schaub - litb Sep 11 '09 at 16:56
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Yeah, that's what i meant. So you can do the following: struct foo { void b() { f(); } void f(); }, f is visible even though not declared yet. The following works too: struct foo { void b(int = bar()); typedef int bar; };. It's visible before its declaration in "all function bodies, default arguments, constructor ctor-initializers". Not in the return type :( –  Johannes Schaub - litb Sep 11 '09 at 18:00
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@litb: It isn't visible before it's declaration, it's only that the use of the identifier is moved behind the declaration. Yeah, I know, the effect is the same for many cases. But not for all cases, which is why I think we should use the precise explanation. -- Oops, wait. It is visible in default arguments? Well, that surely wreaks havoc with my understanding. Dammit! <pouts> –  sbi Sep 11 '09 at 19:27
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Your formatting indicates quotation. What source are you quoting? –  Lightness Races in Orbit Apr 14 '13 at 17:35

From the C99 standard, 6.7(5):

A declaration specifies the interpretation and attributes of a set of identifiers. A definition of an identifier is a declaration for that identifier that:

  • for an object, causes storage to be reserved for that object;
  • for a function, includes the function body;
  • for an enumeration constant or typedef name, is the (only) declaration of the identifier.

From the C++ standard, 3.1(2):

A declaration is a definition unless it declares a function without specifying the function's body, it contains the extern specifier or a linkage-specification and neither an initializer nor a function-body, it declares a static data member in a class declaration, it is a class name declaration, or it is a typedef declaration, a using-declaration, or a using-directive.

Then there are some examples.

So interestingly (or not, but I'm slightly surprised by it), typedef int myint; is a definition in C99, but only a declaration in C++.

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@onebyone: Regarding the typedef, wouldn't that mean that it could be repeated in C++, but not in C99? –  sbi Sep 11 '09 at 14:20
    
That's what surprised me, and as far as a single translation unit is concerned, yes there is that difference. But clearly a typedef can be repeated in C99 in different translation units. C doesn't have an explicit "one definition rule" like C++, so the rules it does have just allow it. C++ chose to change it to a declaration, but also the one definition rule lists what kinds of things it applies to, and typedefs isn't one of them. So repeats would be allowed in C++ under the ODR as it's worded, even if a typedef was a definition. Seems unnecessarily picky. –  Steve Jessop Sep 11 '09 at 14:35
    
... but I'd guess that list in the ODR actually lists all the things it's possible to have definitions of. If so, then the list is actually redundant, and is just there to be helpful. –  Steve Jessop Sep 11 '09 at 14:35
    
What does the std's ODR definition say about class definitions? They have to be repeated. –  sbi Sep 11 '09 at 15:03
2  
@sbi: ODR says "(1) No translation unit shall contain more than one definition of any ... class type" and "(5) There can be more than one definition of a class type ... in a program provided that each definition appears in a different translation unit" and then some extra requirements which amount to "the definitions are the same". –  Steve Jessop Sep 12 '09 at 12:21

From wiki.answers.com:

The term declaration means (in C) that you are telling the compiler about type, size and in case of function declaration, type and size of its parameters of any variable, or user defined type or function in your program. No space is reserved in memory for any variable in case of declaration. However compiler knows how much space to reserve in case a variable of this type is created.

for example, following are all declarations:

extern int a; 
struct _tagExample { int a; int b; }; 
int myFunc (int a, int b);

Definition on the other hand means that in additions to all the things that declaration does, space is also reserved in memory. You can say "DEFINITION = DECLARATION + SPACE RESERVATION" following are examples of definition:

int a; 
int b = 0; 
int myFunc (int a, int b) { return a + b; } 
struct _tagExample example; 

see Answers.

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This, too, is wrong (although much closer than the others): struct foo {}; is a definition, not a declaration. A declaration of foo would be struct foo;. From that, the compiler doesn't know how much space to reserve for foo objects. –  sbi Sep 11 '09 at 12:37
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@Marcin: sbi is saying that "compiler knows how much space to reserve in case a variable of this type is created" is not always true. struct foo; is a declaration, but it does not tell the compiler the size of foo. I'd add that struct _tagExample { int a; int b; }; is a definition. So in this context it is misleading to call it a declaration. Of course it is one, since all definitions are declarations, but you seem to be suggesting that it is not a definition. It is a definition, of _tagExample. –  Steve Jessop Sep 11 '09 at 13:01
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@Marcin Gil: Which means that "Answers" wiki is not always accurate. I have to downvote for misinformation here. –  David Thornley Sep 11 '09 at 14:07
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We learn that what adatapost quoted is true but does not (IMO) really answer the question. What Marcin quoted is false. Quoting the standards is true and answers the question, but is very difficult to make head or tail of. –  Steve Jessop Sep 11 '09 at 14:18
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@David Thornley - not a problem :) This is what this site is about. We select and verify info. –  Marcin Gil Sep 11 '09 at 18:15

C++11 Update

Since I don't see an answer pertinent to C++11 here's one.

A declaration is a definition unless it declares a/n:

  • opaque enum - enum X : int;
  • template parameter - T in template<typename T> class MyArray;
  • parameter declaration - x and y in int add(int x, int y);
  • alias declaration - using IntVector = std::vector<int>;
  • static assert declaration - static_assert(sizeof(int) == 4, "Yikes!")
  • attribute declaration (implementation-defined)
  • empty declaration ;

Additional clauses inherited from C++03 by the above list:

  • function declaration - add in int add(int x, int y);
  • extern specifier containing declaration or a linkage specifier - extern int a; or extern "C" { ... };
  • static data member in a class - x in class C { static int x; };
  • class/struct declaration - struct Point;
  • typedef declaration - typedef int Int;
  • using declaration - using std::cout;
  • using directive - using namespace NS;

A template-declaration is a declaration. A template-declaration is also a definition if its declaration defines a function, a class, or a static data member.

Examples from the standard which differentiates between declaration and definition that I found helpful in understanding the nuances between them:

// except one all these are definitions
int a;                                  // defines a
extern const int c = 1;                 // defines c
int f(int x) { return x + a; }          // defines f and defines x
struct S { int a; int b; };             // defines S, S::a, and S::b
struct X {                              // defines X
    int x;                              // defines non-static data member x
    static int y;                       // DECLARES static data member y
    X(): x(0) { }                       // defines a constructor of X
};
int X::y = 1;                           // defines X::y
enum { up , down };                     // defines up and down
namespace N { int d; }                  // defines N and N::d
namespace N1 = N;                       // defines N1
X anX;                                  // defines anX


// all these are declarations
extern int a;                           // declares a
extern const int c;                     // declares c
int f(int);                             // declares f
struct S;                               // declares S
typedef int Int;                        // declares Int
extern X anotherX;                      // declares anotherX
using N::d;                             // declares N::d


// specific to C++11 - these are not from the standard
enum X : int;                           // declares X with int as the underlying type
using IntVector = std::vector<int>;     // declares IntVector as an alias to std::vector<int>
static_assert(X::y == 1, "Oops!");      // declares a static_assert which can render the program ill-formed or have no effect like an empty declaration, depending on the result of expr
template <class T> class C;             // declares template class C
;                                       // declares nothing
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@Downvoter Thanks for mysteriously downvoting, now we'll all know the mistake in the answer to avoid in future! –  legends2k Jun 6 at 8:44

definition means actual function written & declaration means simple declare function for e.g.

void  myfunction(); //this is simple declaration

and

void myfunction()
{
 some statement;    
}

this is definition of function myfunction

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And what about types and objects? –  sbi Apr 24 '13 at 12:57

This is going to sound really cheesy, but it's the best way I've been able to keep the terms straight in my head:

Declaration: Picture Thomas Jefferson giving a speech... "I HEREBY DECLARE THAT THIS FOO EXISTS IN THIS SOURCE CODE!!!"

Definition: picture a dictionary, you are looking up Foo and what it actually means.

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Find Similar answres here:http://sickprogrammersarea.blogspot.in/2014/03/technical-interview-questions-on-c_6.html

A declaration provides a name to the program; a definition provides a unique description of an entity (e.g. type, instance, and function) within the program. Declarations can be repeated in a given scope, it introduces a name in a given scope.

A declaration is a definition unless

  • Declaration declares a function without specifying its body,
  • Declaration contains an extern specifier and no initializer or function body,
  • Declaration is the declaration of a static class data member without a class definition,
  • Declaration is a class name definition,

A definition is a declaration unless:

  • Definition defines a static class data member,
  • Definition defines a non-inline member function.
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Couldnt you state in the most general terms possible, that a declaration is an identifier in which no storage is allocated and a definition actually allocates storage from a declared identifier?

One interesting thought - a template cannot allocate storage until the class or function is linked with the type information. So is the template identifier a declaration or definition? It should be a declaration since no storage is allocated, and you are simply 'prototyping' the template class or function.

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1  
Your definition isn't per se wrong, but "storage definition" always seems awkward when it comes to function definitions. Regarding templates: This template<class T> struct foo; is a template declaration, and so is this template<class T> void f();. Template definitions mirror class/function definitions in the same way. (Note that a template name is not a type or function name. One place where you can see this is when you cannot pass a template as another template's type parameter. If you want to pass templates instead of types, you need template template parameters.) –  sbi Sep 11 '09 at 15:09
    
Agreed that 'storage definition' is awkward, especially regarding function definitions. The declaration is int foo() and definition is int foo() {//some code here..}. I usually need to wrap my small brain with concepts I am familiar - 'storage' is one such way to keep it straight to me at least... :) –  user154171 Sep 11 '09 at 15:59

Declaration means give name and type to a variable (in case of variable declaration) eg:

 int i;  

or give name,return type and parameter(s) type to a function without body(in case of function declaration)

eg:

int max(int, int);

whereas definition means assign value to a variable (in case of variable definition). eg:

i = 20;

or provide/add body(functionality) to a function is called function definition.

eg:

 int max(int a, int b)
 {
    if(a>b)   return a;
    return b;  
 }

many time declaration and definition can be done together as:

int i=20;   

and

int max(int a, int b)
{
    if(a>b)   return a;
    return b;    
} 

In above cases we define and declare variable i and function max()

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the actual mean of definition if to assign value/body to a variable/function whereas declaration means provide name,type to a variable/function –  Puneet Purohit Jan 3 '13 at 6:57
    
You can define something without assigning it a value. –  Lightness Races in Orbit Apr 14 '13 at 17:36
    
@LightnessRacesinOrbit ....can you please give an example for that...thank you –  Puneet Purohit Apr 15 '13 at 9:03
    
Just like this: int x; –  Lightness Races in Orbit Apr 15 '13 at 11:19
1  
No, it is both. You are confusing definition with initialisation. –  Lightness Races in Orbit Apr 15 '13 at 14:10

A declaration introduces a name into the program; a definition provides a unique description of an entity (e.g. type, instance, and function). Declarations can be repeated in a given scope, it introduces a name in a given scope. There must be exactly one definition of every object, function or class used in a C++ program. A declaration is a definition unless:

* it declares a function without specifying its body,
* it contains an extern specifier and no initializer or function body,
* it is the declaration of a static class data member without a class definition,
* it is a class name definition,
* it is a typedef declaration.

A definition is a declaration unless:

* it defines a static class data member,
* it defines a non-inline member function.
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Shruti is a cut and paste demon: discussweb.com/c-c-programming/… –  Will Jul 27 '10 at 10:15
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Don't bother visiting discussweb.com; it is currently a parked domain available for purchase. –  Jonathan Leffler Dec 12 '12 at 8:03

Difference between declaring and defining with functions: The prototype statement for a function declares it, i.e. tells the compiler about the function - its name, return type, and number and type of its parameters. The function header, followed by the body of the function, defines the function - giving the details of the steps to perform the function operation.

Ex.

Code:

//Declare
int foo(int);

//Define
int foo(int){
...
}

With Respect to Variables: For automatic and register variables, there is no difference between definition and declaration. The process of declaring an automatic or a register variable defines the variable name and allocates appropriate memory.

However, for external variables: Because memory for a variable must be allocated only once, to ensure that access to the variable always refers to the same cell. all variables must be defined once and only once.

If an external variable is to be used in a file other than the one in which it is defined, a mechanism is needed to "connect" such a use with the uniquely defined external variable cell allocated for it. This process of connecting the references of the same external variable in different files, is called resolving the references.

It may be defined and declared with a declaration statement outside any function, with no storage class specifier. Such a declaration allocates memory for the variable. A declaration statement may also be used to simply declare a variable name with the extern storage class specifier at the beginning of the declaration. Such a declaration specifies that the variable is defined elsewhere, i.e. memory for this variable is allocated in another file. Thus, access to an external variable in a file other than the one in which it is defined is possible if it is declared with the keyword extern; no new memory is allocated. Such a declaration tells the compiler that the variable is defined elsewhere, and the code is compiled with the external variable left unresolved. The reference to the external variable is resolved during the linking process.

Ex.

Code

//file1.c
extern char stack[10];
extern int stkptr;
....

//file2.c
char stack[10];
int stkptr;
....

These declarations tell the compiler that the variables stack[] and stkptr are defined elsewhere, usually in some other file. If the keyword extern were omitted, the variables would be considered to be new ones and memory would be allocated for them. Remember, access to the same external variable defined in another file is possible only if the keyword extern is used in the declaration.

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And what about types? –  sbi Apr 24 '13 at 12:56

Rule of thumb:

  • A declaration tells the compiler how to interpret the variable's data in memory. This is needed for every access.

  • A definition reserves the memory to make the variable existing. This has to happen exactly once before first access.

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1  
This only holds for objects. What about types and functions? –  Lightness Races in Orbit Apr 14 '13 at 17:38

Declaration : declaring what it going to happen (planning before action) mean declaration tells the compiler about the data type of variable, name of the variable, and necessary required size of memory.

Definition: Actual specification/value or initialization with value/values.

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definition defines the memory area allocates the memory for the variable and the declaration variable of the type and size to be considered.

int x; // declaration

x=10; // definition

The function declaration is

int add (int a,int b);

The function prototype is called as the function declaration

What the function performed the operation and the variable value how to handled the method is called definition

int add(int a,int b)
{
   a=5;
   b=10;
   c=a+b;
}
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3  
x = 10; is an assignment; it's not a a "definition" in the sense that the C or C++ standard uses the term. And x=10; doesn't allocate memory anyway. –  Keith Thompson Oct 3 '12 at 5:23

protected by Bill the Lizard Sep 2 '11 at 19:07

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