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char *s="sfdggh";
char *u="xcvbn";

cout << s;

Doesn't Work:

char *s="sfdggh";
char *u="xcvbn";

cout << s;

why? (I've searched, But Couldn't Understand)

//***************** EDIT **********************************

I got something. just confirm my understanding if I'm right.

char *s;
char *v;

char a,b;


s=v; //Address exchange


char *s="sfdggh";
char *u="xcvbn";

s=u; // Address Exchange too!/ Not Value Exchanging
share|improve this question
Try enabling warnings on your compiler. You will see a warning assigning a string literal (of type const char *) to a char *. – Shahbaz Oct 26 '12 at 8:41

s=u; re-assigns the pointer s, which is perfectly valid.

*s=*u; attempts to overwrite the first character of the string literal s points to with the first character in u, which is illegal.

Modifying a string literal is undefined behavior.

char *s="sfdggh";
char *u="xcvbn";

are both string literals.

share|improve this answer
Can't Distinguish Between "re-assign" And "overwrite" – Zobeyr Fa Oct 26 '12 at 8:45
@ZobeyrFa well, those are inter-changeable. The problem is with what you attempt to re-assign (overwrite). Re-assigning a pointer is okay, re-assigning a string literal is not. For example, the problem is the same as char* x = "bla"; x[1] = 'y';. – Luchian Grigore Oct 26 '12 at 8:47

The const string literal can't been modified.

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s and u are pointer-types, which can be reassigned.

*s and *u are char-types which are stored in the code segment of the memory.
Anything stored in the code segment is illegal to modify (otherwise the program could change itself, for example).

When you write string literals such as "xcvbn" in your source code, it's stored in the code segment of the memory as an array of char, with the rest of your program's code.

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The fact that it's stored in the codes segment is an implementation detail. The problem is that modifying string literals (regardless of where they are stored in a particular implementation) is undefined behavior. – Luchian Grigore Oct 26 '12 at 8:46
The fact that trying to access the code segment of the memory is what causes segfaults, is important to understand. – EyalAr Oct 26 '12 at 8:49

When you are writing as *s=*u then you are changing the value stored char in first location of address pointed S by the char stored in first location of the address pointed by u.


char *s="sfdggh";
char *u="xcvbn";

These two are string literal and act as constant.You can check the warning given by compiler you using g++ -Wall

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