What is the difference between initialization and assignment?

I was confused by the following statement:

C++ provides another way of initializing member variables that allows us to initialize member variables when they are created rather than afterwards. This is done through use of an initialization list. Using an initialization list is very similar to doing implicit assignments.

PS: C/C++ examples are appreciated.

  • 1
    What's wrong with informit.com/articles/article.aspx?p=376876 ? Sep 8, 2011 at 15:02
  • 2
    A variable that never, during its lifetime, had a garbage value must habe been initialized; a variable with a garbage value is probably uninitialized (and the garbage value disappears when the variable get assigned a value)
    – pmg
    Sep 8, 2011 at 15:15

6 Answers 6


Oh my. Initialization and assignment. Well, that's confusion for sure!

To initialize is to make ready for use. And when we're talking about a variable, that means giving the variable a first, useful value. And one way to do that is by using an assignment.

So it's pretty subtle: assignment is one way to do initialization.

Assignment works well for initializing e.g. an int, but it doesn't work well for initializing e.g. a std::string. Why? Because the std::string object contains at least one pointer to dynamically allocated memory, and

  • if the object has not yet been initialized, that pointer needs to be set to point at a properly allocated buffer (block of memory to hold the string contents), but

  • if the object has already been initialized, then an assignment may have to deallocate the old buffer and allocate a new one.

So the std::string object's assignment operator evidently has to behave in two different ways, depending on whether the object has already been initialized or not!

Of course it doesn't behave in two different ways. Instead, for a std::string object the initialization is taken care of by a constructor. You can say that a constructor's job is to take the area of memory that will represent the object, and change the arbitrary bits there to something suitable for the object type, something that represents a valid object state.

That initialization from raw memory should ideally be done once for each object, before any other operations on the object.

And the C++ rules effectively guarantee that. At least as long as you don't use very low level facilities. One might call that the C++ construction guarantee.

So, this means that when you do

    std::string s( "one" );

then you're doing simple construction from raw memory, but when you do

    std::string s;
    s = "two";

then you're first constructing s (with an object state representing an empty string), and then assigning to this already initialized s.

And that, finally, allows me to answer your question. From the point of view of language independent programming the first useful value is presumably the one that's assigned, and so in this view one thinks of the assignment as initialization. Yet, at the C++ technical level initialization has already been done, by a call of std::string's default constructor, so at this level one thinks of the declaration as initialization, and the assignment as just a later change of value.

So, especially the term "initialization" depends on the context!

Simply apply some common sense to sort out what Someone Else probably means.

Cheers & hth.,

  • So to make things clear, when I write : C f(); C obj = f(); , it first calls the default copy constructor, then the assignment operator ? In that case why doesn't that work if I remove the default copy constructor ?
    – Dinaiz
    Nov 8, 2016 at 21:46
  • @Dinaiz: Not quite. C obj = f(); is a C++ initialization, a declaration statement, in spite of using the = symbol. Assignment isn't involved here at all. Other than historically, in the origins of the notation. Nov 9, 2016 at 6:22
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    @Diniz: The effect is as if a perfect copy constructor with no side effects, had been called. However the compiler is allowed to elide that call (optimize it away). In practice there will be no copy constructor call for C obj = f(), but rather f will construct its result directly in the storage provided by the caller, namely obj (this is called return value optimization, or RVO). Nov 9, 2016 at 16:30
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    Uh, "or move constructor". Sorry. It depends on the class C. ;-) Nov 9, 2016 at 16:48
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    @Dinaiz: That last explanation of mine, and correction, is ungood and misleading, I'm sorry. It's a complex issue. The short of it: the = notation for initialization is called copy initialization, for historical reasons. Copy initialization can use a copy constructor or a move constructor, which must be accessible. The extra copy or move constructor call can be optimized away, elided, even if the constructor in question has side effects. And it usually is optimized away. Nov 10, 2016 at 3:54

In the simplest of terms:

int a = 0;  // initialization of a to 0
a = 1;      // assignment of a to 1

For built in types its relatively straight forward. For user defined types it can get more complex. Have a look at this article.

For instance:

class A
   A() : val_(0)  // initializer list, initializes val_

   A(const int v) : val_(v) // initializes val_

   A(const A& rhs) : val_(rhs.val_)  // still initialization of val_

    int val_;

// all initialization:
A a;
A a2(4);
A a3(a2);

a = a3; // assignment

Initialization is creating an instance(of type) with certain value.

int i = 0;

Assignment is to give value to an already created instance(of type).

int i;
i = 0

To Answer your edited Question:

What is the difference between Initializing And Assignment inside constructor? &
What is the advantage?

There is a difference between Initializing a member using initializer list and assigning it an value inside the constructor body.

When you initialize fields via initializer list the constructors will be called once.

If you use the assignment then the fields will be first initialized with default constructors and then reassigned (via assignment operator) with actual values.

As you see there is an additional overhead of creation & assignment in the latter, which might be considerable for user defined classes.

For an integer data type or POD class members there is no practical overhead.

An Code Example:

class Myclass
 Myclass (unsigned int param) : param_ (param)

unsigned int param () const
     return param_;

     unsigned int param_;

In the above example:

Myclass (unsigned int param) : param_ (param)

This construct is called a Member Initializer List in C++.

It initializes a member param_ to a value param.

When do you HAVE TO use member Initializer list?
You will have(rather forced) to use a Member Initializer list if:

Your class has a reference member
Your class has a const member or
Your class doesn't have a default constructor

  • 2
    Types don't have values, objects do.
    – Mankarse
    Sep 8, 2011 at 15:10
  • Types typically do have a range of values. void is the exception, though.
    – MSalters
    Sep 8, 2011 at 15:49
  • The term "initialization" has several meanings. The basic meaning, from which the others are derived, is incompatible with this attempt at differentiating initialization and assignment. And so I think this answer, as it is as of the writing of this comment, can easily mislead the now unfortunately too common unthinking group-oriented associative novices. Jul 8, 2016 at 8:58

Initialisation: giving an object an initial value:

int a(0);
int b = 2;
int c = a;
int d(c);
std::vector<int> e;

Assignment: assigning a new value to an object:

a = b;
b = 5;
c = a;
d = 2;
  • 3
    @Appy No, it is called an initialisation.
    – Mankarse
    Sep 8, 2011 at 15:14

In C the general syntax for initialization is with {}:

struct toto { unsigned a; double c[2] };
struct toto T = { 3, { 4.5, 3.1 } };
struct toto S = { .c = { [1] = 7.0 }, .a = 32 };

The one for S is called "designated initializers" and is only available from C99 onward.

  • Fields that are omitted are automatically initialized with the correct 0 for the corresponding type.
  • this syntax applies even to basic data types like double r = { 1.0 };
  • There is a catchall initializer that sets all fields to 0, namely { 0 }.
  • if the variable is of static linkage all expressions of the initializer must be constant expressions

This {} syntax can not be used directly for assignment, but in C99 you can use compound literals instead like

 S = (struct toto){ .c = { [1] = 5.0 } };

So by first creating a temporary object on the RHS and assigning this to your object.

  • bool a = false; vs. bool a { false }; What to prefer and why? Thx!
    – hfrmobile
    Sep 22, 2021 at 13:39

One thing that nobody has yet mentioned is the difference between initialisation and assignment of class fields in the constructor.

Let us consider the class:

class Thing
  int num;
  char c;

  : num(5)
  c = 'a';

What we have here is a constructor that initialises Thing::num to the value of 5, and assigns 'a' to Thing::c. In this case the difference is minor, but as was said before if you were to substitute int and char in this example for some arbitrary classes, we would be talking about the difference between calling a parameterised constructor versus a default constructor followed by operator= function.

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