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In some code that I read, there was an initializing statement like this

char *array[]= { "something1", "something2", "something3" };

What does this mean, and what does that pointer actually point to? How is that allocated in memory, and how can I access every element and every character of an element in that array ?

--- Edited --- and please what is the difference in this example between char array[3]; and char *array[3]; --- Edited ---

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Think of it as a 2D array of characters or better yet, an array of strings –  user814628 Jan 28 '13 at 20:08
+1 What clown downvoted this? It's a reasonable question with a definitive answer. –  Chazt3n Jan 28 '13 at 20:23
@user814628 This is one dimension array, not two dimensions. Try to printf("%d\n", sizeof(array[0]));. It will prints 4, pointer. Imagine it like it was: AddressType array[]= { 0xXXXXXXXX, 0xXXXXXXXX, 0xXXXXXXXX }; –  BSH Jan 28 '13 at 20:45
@Sp. Its how you interpret it, I know its an array of char* but for easier understanding OP can think of it as 2D array such that in his given example, array[0][0] == 's' holds true. So Although technically it might not be a 2D array, it can pretty much emulate like one. –  user814628 Jan 28 '13 at 23:43

5 Answers 5

up vote 3 down vote accepted

what that means ?

It's initializing an array of strings (char *) with three values (three pointers to null-terminating strings)

and what that pointer points to ?

It should point to the first element in the char* array

how is that allocated in memory ?

It will allocate enough memory to store the three strings followed by null-terminators, as well as the three pointers to those strings:

array --> pointer to three sequential memory addresses

array[0] --> something1{\0}
array[1] --> something2{\0}
array[2] --> something3{\0}

Note that the strings may not necessarily be in sequential memory

and how can I access every element

if by "element" you mean the string, you can loop though the pointers:

for(int i=0; i<3; i++)
    char* element = array[i];

and every character of an element in that array

well, you could access the chars using array syntax (element[i]) but I would recommend using the C string functions for safety (so you don't have to worry about accessing memory outside the range of the string)

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tyvm , that was relly useful :) –  Muhammad Barrima Jan 28 '13 at 20:45

This is a way to initialize an array at the same time that you create it.

This code

char *array[]= { "a", "b", "c" };

will have the same result as this code.

char *array[3];

array[0] = "a";
array[1] = "b";
array[2] = "c";

Here is a good source for more information.



char array[3]; is an array of 3 char. char *array[3]; is an array of 3 pointers to char.

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okay, tyvm but what is the difference between char arr[3]; and char *arr[3]; ? –  Muhammad Barrima Jan 28 '13 at 20:44

char * in C is a string.

array is the name of the variable being declared.

[] indicates that it is an array.

{ "something1", "something2", "something3" } is initializing the contents of the array.

Accessing elements is done like so:

array[0] gives the 1st element - "something1".

array[1] gives the 2nd element - "something2".



As was pointed out in the comments, char * isn't technically a string.

It's a pointer to a char. You can visualize a string in memory like so:


This block of memory (locations 134-139) is holding the string of characters.

For example:

array[0] actually returns a pointer to the first character in "something1".

You use the fact that the characters are sequentially in memory to access the rest of the string in various ways:

/* ch points to the 's' */
char* ch = array[0];

/* ch2 points to the 'e' */
char* ch2 = ch + 3;

/* ch3 == 'e' */
char ch3 = *ch2;

/* ch4 == 'e' */
char ch4 = *(ch + 3);

/* ch5 == 'e' */
char ch5 = ch[3];
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char * is a pointer to char. A string is what it can point to, but not necessarily does or will. –  Alexey Frunze Jan 28 '13 at 20:11
Well yes. I'll make an edit attempting to clear that up. –  Bertie Wheen Jan 28 '13 at 20:13
so please again what is the difference between char a[3]; and char * a[3]; ? –  Muhammad Barrima Jan 28 '13 at 20:52
char a[3]; is making an array of three chars. char * a[3]; is making an array of three char*s. char* means "pointer to a char" –  Bertie Wheen Jan 28 '13 at 20:57
@BertieWheen Thank you :) –  Muhammad Barrima Jan 28 '13 at 21:05

This defines a array of char pointers (aka. "c strings").

For accessing the content you could do:

for (int i=0; i<sizeof(array)/sizeof(char*); i++) {
    printf("%s", array[i]);
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-1 for sizeof(array). –  Alexey Frunze Jan 28 '13 at 20:10
@AlexeyFrunze I'm sorry, I forgot the division by sizeof(char*). –  bikeshedder Jan 28 '13 at 20:17
using sizeof(array)/sizeof(char*) might look funny at first, but is really great for C arrays as you do not need to hardcode the length of it. Since sizeof is determined at compile time it is just as fast as using a constant here. –  bikeshedder Jan 28 '13 at 20:21
-1's been reverted. –  Alexey Frunze Jan 28 '13 at 20:32
Thank you very much :) –  Muhammad Barrima Jan 28 '13 at 20:47

It declares array as an array of 3 pointers to char, with its 3 elements initialized to pointers to the respective strings. The memory is allocated for the array itself (3 pointers) and for the strings. The strings memory is allocated statically. The array's memory is allocated either statically (if the declaration is outside of all functions) or dynamically (typically, on the execution stack of the CPU) if the declaration is inside a function.

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