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Does this...

char* myString = "hello";

... have the same effect as this?

char actualString[] = "hello";
char* myString = actualString;
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It looks like you have code that can be easily compiled and tested...why don't you test it? – Thomas Owens Jan 19 '10 at 19:35
This has been asked a ton!~ – JonH Jan 19 '10 at 19:35
He is not asking whether it works, or compiles. He is asking if both statements have the same effect (aka work in the same way). To which the answer is no. – Yannick Motton Jan 19 '10 at 19:36
somewhat related:… – jldupont Jan 19 '10 at 19:40
up vote 34 down vote accepted


char  str1[] = "Hello world!"; //char-array on the stack; string can be changed
char* str2   = "Hello world!"; //char-array in the data-segment; it's READ-ONLY

The first example creates an array of size 13*sizeof(char) on the stack and copies the string "Hello world!" into it.
The second example creates a char* on the stack and points it to a location in the data-segment of the executable, which contains the string "Hello world!". This second string is READ-ONLY.

str1[1] = 'u'; //Valid
str2[1] = 'u'; //Invalid - MAY crash program!
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I am assuming you meant char str1[] instead of char[] str1. – Alok Singhal Jan 20 '10 at 3:08
OMG you are right, my entire life is a sham. – BlueRaja - Danny Pflughoeft Jan 20 '10 at 12:17
this is why some compilers warn you, unless you write const char* blah="blahblah" – gnud Jan 20 '10 at 12:21
It's also why, in C++, initialising a char* to point to a string literal is deprecated in favour of requiring the pointer to be char const*. Not strictly relevant to this C question, I understand; however it does demonstrate the facts of the scenario. – PreferenceBean Apr 6 '11 at 22:12
It is worth mentioning that: in first example str1 pointer can't be changed. That is i cant do str1 = some_other_pointer. In second example, i can do str2 = some_other_pointer. – rajya vardhan Apr 15 '11 at 13:25

No. In the first one, you can't modify the string pointed by myString, in the second one you can. Read more here.

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No. The first one gives you a pointer to const data, and if you change any character via that pointer, it's undefined behavior. The second one copies the characters into an array, which isn't const, so you can change any characters (either directly in array, or via pointer) at will with no ill effects.

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It isn't the same, because the unnamed array pointed to by myString in the first example is read-only and has static storage duration, whereas the named array in the second example is writeable and has automatic storage duration.

On the other hand, this is closer to being equivalent:

static const char actualString[] = "hello";
char* myString = (char *)actualString;

It's still not quite the same though, because the unnamed arrays created by string literals are not guaranteed to be unique, whereas explicit arrays are. So in the following example:

static const char string_a[] = "hello";
static const char string_b[] = "hello";
const char *ptr_a = string_a;
const char *ptr_b = string_b;
const char *ptr_c = "hello";
const char *ptr_d = "hello";

ptr_a and ptr_b are guaranteed to compare unequal, whereas ptr_c and ptr_d may be either equal or unequal - both are valid.

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