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I Want to know why the first statements works and why not second one in c++

char a[10]="iqbal";  // it works

a="iqbal"; // does not work 
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Is this C or C++? Please specify. –  user195488 Apr 10 '12 at 12:22
this comes out as direct estimation by the SO interface. Please search before posting: possible duplicate of Assigning strings to arrays of characters –  Jens Gustedt Apr 10 '12 at 12:48

6 Answers 6

up vote 10 down vote accepted

Strictly speaking, an array is not a pointer! And an array ( base address of the array ) cant be a modifiable lvalue. ie it cannot appear on the left hand side of an assignment operator.Arrays decay into pointers only in certain circumstances. Read this SO post to learn when arrays decay into pointers. Here is one more nice article which explains the differences between arrays and pointers

Also read about lvalues and rvalues here so that you get an idea of things which cannot appear on the LHS of =

char a[10]="iqbal";  // it works

In this case, internally what happens is

a[0] = 'i';
a[1] = 'q'; 
a[5] = '\0';

So everything is fine as array[i] is a modifiable lvalue.

a="iqbal"; // does not work

Internally, this is roughly equivalent to

0x60000(Address of a, but is a simple number here ) = Address of "iqbal"

This is wrong as we cannot assign something to a number.

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Actually, a is a modifiable lvalue, but can't appear on the left-hand side of the assignment operator. The meaning of l and r in lvalue and rvalue was lost long ago. –  avakar Apr 10 '12 at 13:32
a can be an lvalue but not a modifiable lvalue and hence cant appear on the LHS of =? Can you point me to some documentation if I am wrong? I am going by this –  Pavan Manjunath Apr 10 '12 at 13:38

The first line is not a statement but a declaration with an initialization. The second line is an expression statement with the assignment operator.

You cannot assign arrays in C.

But you can initialize an array with the elements of a string literal.

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why the first statements works and why not second one in c++

Because they are different statements, almost wholly unrelated. Do not be confused by the fact that they both use the = symbol. In one case, it represents object initialization. In the other case, the assignment operator.

Your first line is legal because it is legal to initialize aggregates, including character arrays.

Your second line is not legal because it is not legal to assign to an array.

Since this is C++, may I suggest that you avoid naked arrays? For character strings use std::string. For other arrays use std::vector. If you do, you example becomes:

std::string a = "iqbal";  // it works
a="iqbal"; // so does this
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The char array a will be static and can not be changed if you initialize it like this. Anyway you can never assign a character string a="iqbal" in c. You have to use strncpy or memcpy for that. Otherwise you will try to overwrite the pointer to the string, and that is not what you want.

So the correct code would do something like:

char a[10];
strncpy(a, "iqbal", sizeof(a) - 1);
a[sizeof(a) - 1] = 0;

The -1 is to reserve a byte for the terminating zero. Note, you will have to check for yourself if the string is null terminated or not. Bad api. There is a strlcpy() call that does this for you but it is not included in glibc.

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When writing char a[10]="iqbal" You are initializing the elements of the character array a with the characters. We can do the same with int type (note that the char type gets a slightly different treatment) : int a[10]={1,2,...};

But writing the following after declaration part would be invalid as a would be treated just like a pointer. So writing something like a={1,2,...}; or a="iqbal" won't be making any sense!

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char a[10]="iqbal";
char *my_a = a;

and work with my_a.

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