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I know this is a very basic question. I am confused as to why and how are the following different.

char str[] = "Test";
char *str = "Test";
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The answers below pretty much explain it, but one additional difference is that the array variant gives you convenient way to take the size of the initial string (including the null terminator) - sizeof(str). –  davmac Sep 27 '11 at 4:18
Also see: stackoverflow.com/q/1287306/365102 –  muntoo Sep 27 '11 at 4:30
My usual advice: read section 6 of the comp.lang.c FAQ. –  Keith Thompson Sep 27 '11 at 4:30
Should this be part of the [c++-faq]? –  muntoo Sep 27 '11 at 4:30
...Also see my answer in a similar question: stackoverflow.com/questions/6823249/c-pointer-question/… –  muntoo Sep 27 '11 at 4:31
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5 Answers

up vote 18 down vote accepted
char str[] = "Test";

Is an array of chars, initialized with the contents from "Test", while

char *str = "Test";

is a pointer to the literal (const) string "Test".

The main difference between them is that the first is an array and the other one is a pointer. The array owns its contents, which happen to be a copy of "Test", while the pointer simply refers to the contents of the string (which in this case is immutable).

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Why is char* str commonly used when str denotes a string. Isn't str[] better? –  Nemo Sep 27 '11 at 4:00
@Ajan: str[] is a statically sized array, which copies the string. If you need a copy -only needed if pretending to modify the string-, then the array is better. Otherwise a pointer to a literal string is preferable. –  K-ballo Sep 27 '11 at 4:02
Is char *str same as const char * str if both denotes constants? –  Nemo Sep 27 '11 at 4:02
@Ajan: They do not both denote constant, string literals are allowed to bind to non const pointers just to support legacy C. Literals should always be refered by a const pointer to avoid potential undefined behavior. –  K-ballo Sep 27 '11 at 4:03
Ok, that explains why I get warning: deprecated conversion from string constant to ‘char*’ –  Nemo Sep 27 '11 at 4:06
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The first

char str[] = "Test";

is an array of five characters, initialized with the value "Test" plus the null terminator '\0'.

The second

char *str = "Test";

is a pointer to the memory location of the literal string "Test".

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What's the reason behind the downvote? –  Peter Olson Sep 27 '11 at 4:00
Not sure, but it's an array of 5 characters. {'T', 'e', 's', 't', '\0'}. –  sharth Sep 27 '11 at 4:05
I've edited to fix. –  Peter Olson Sep 27 '11 at 4:06
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A pointer can be re-pointed to something else:

char foo[] = "foo";
char bar[] = "bar";

char *str = foo;  // str points to 'f'
str = bar;        // Now str points to 'b'
++str;            // Now str points to 'a'

The last example of incrementing the pointer shows that you can easily iterate over the contents of a string, one element at a time.

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One is pointer and one is array. They are different type of data.

int main ()
   char str1[] = "Test";
   char *str2 = "Test";
   cout << "sizeof array " << sizeof(str1) << endl;
   cout << "sizeof pointer " << sizeof(str2) << endl;


sizeof array 5
sizeof pointer 4
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"Test" is an array of five characters (4 letters, plus the null terminator.

char str1[] = "Test"; creates that array of 5 characters, and names it str1. You can modify the contents of that array as much as you like, e.g. str1[0] = 'B';

char *str2 = "Test"; creates that array of 5 characters, doesn't name it, and also creates a pointer named str2. It sets str2 to point at that array of 5 characters. You can follow the pointer to modify the array as much as you like, e.g. str2[0] = 'B'; or *str2 = 'B';. You can even reassign that pointer to point someplace else, e.g. str2 = "other";.

An array is the text in quotes. The pointer merely points at it. You can do a lot of similar things with each, but they are different:

char str_arr[] = "Test";
char *strp = "Test";

// modify
str_arr[0] = 'B'; // ok, str_arr is now "Best"
strp[0] = 'W';    // ok, strp now points at "West"
*strp = 'L';      // ok, strp now points at "Lest"

// point to another string
char another[] = "another string";
str_arr = another;  // compilation error.  you cannot reassign an array
strp = another;     // ok, strp now points at "another string"

// size
std::cout << sizeof(str_arr) << '\n';  // prints 5, because str_arr is five bytes
std::cout << sizeof(strp) << '\n';     // prints 4, because strp is a pointer

for that last part, note that sizeof(strp) is going to vary based on architecture. On a 32-bit machine, it will be 4 bytes, on a 64-bit machine it will be 8 bytes.

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You can't modify string literals, they are immutable; doing so is undefined behavior. –  K-ballo Sep 27 '11 at 4:07
strp[0] = 'W'; doesn't work. –  Nemo Sep 27 '11 at 4:10
strp[0] = 'W'; invokes undefined behaviour, because it attempts to modify a constant string. –  davmac Sep 27 '11 at 4:14
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