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I can not figure out what the heck is happening here. What I expect is that the output should say that there is only 1 element in keys, it's saying there are 7 when I have allocated only the 0 position with 120 bytes.

void add2(char **b, char *i) {
    if (!i) {
        b[0] = (char*) malloc(120);
        sprintf(b[0], "%s", "hithere");
    } else {
        strcat(b[0], "\\\\");
        strcat(b[0], i);

void add1(char **b) {
    add2(b, NULL);
    add2(b, "one");
    add2(b, "two");
    add2(b, "three");

void add() {
    char *keys[2];
    int i;
    fprintf(stderr, "%s\n", keys[0]);
    for (i = 0; keys[i]; i++)
        fprintf(stderr, "%d\n", i);

int main (int argc, char** argv)
     return 255;

outputs: hithere\one\two\three 0 1 2 3 4 5 6 7 hithere\one\two\three 0 1 2 3 4 5 6 7

the strings are as I expect them to be however i thought only 0 should be printed out after since 0 is the only element I added to. I need to be able to free each spot instead of just free[0] but when i put the free[i] in the for loop that prints out i it stack dumps.

with regard to initialization from response below, if i need an array that is like 1000 instead of 2 then how do i init them all to 0 without typing out 1,000 0's

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4 Answers 4

up vote 4 down vote accepted
/* ... */
void add() {
    char *keys[2];
/* ... */

keys is an array of 2 pointers to char, but it is not initialized.
Try this

/* ... */
void add() {
    char *keys[2] = {0, 0}; /* explicit initialization of the two elements */
/* ... */

In the absence of explicit initializers for all members, the uninitialized ones are initialized to zero (the right zero for their type).

/* ... */
void add() {
    char *keys[1000] = {42}; /* explicit initialize the first element to 42 */
                             /* and implicitly initialize all other elements to 0 */
                             /* **ATTENTION** */
                             /* initializing a pointer to 42 is wrong */
                             /* I only wrote that as an example */
/* ... */

Edit, quote from the Standard

6.7.8 Initialization


{ initializer-list }
{ initializer-list , }


designationopt initializer
initializer-list , designationopt initializer

There is no syntax for an empty initializer-list.

share|improve this answer
Okay so lets say I don't know how many elements I need? would I do char **keys; and then use malloc? – user105033 Oct 6 '09 at 15:22
whats difference between that and memset(keys, '\0', sizeof(keys))? – user105033 Oct 6 '09 at 16:12
You could just use "char *keys[SIZE] = {};" to get around typing a 5-line comment – Sean Oct 6 '09 at 17:00
My compiler tells me "warning: ISO C forbids empty initializer braces". I tried to get the proper reference out of the Standard, but didn't find it. – pmg Oct 6 '09 at 17:50
Oh, right this is C not C++ ... well, why not use {0} then? – Sean Oct 6 '09 at 19:04

You haven't initialized the keys array, so it contains whatever happened to be in memory. keys[1] and on up to 7 weren't zero in that instance.

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What's the difference between implicitly initializing array elements to 0 and explicitly setting them to 0 with memset()?

char *data[1000] = {0};
memset(data, 0, sizeof data);

The first option (implicit initialization) sets every element of the array to zero of the proper type; the second option sets all bits of all elements (plus any padding) to 0. Usually (99.99% of all current computers) there is no difference between a typed 0 and all bits 0.

Imagine a computer with segmented memory ... where a pointer is composed of two parts. When you set it to 0 (the right type of 0) the compiler can make that 0 different than all bits 0. If you specifically set all bits to 0, you might end up with an invalid pointer.

void *test = 0; /* can make test something like "0xC0DE:0x0000" */
memset(test, 0, sizeof test); /* will make test as "0x0000:0x0000" */
share|improve this answer
They say that 99% of statistics are made up on the spot. ;) – San Jacinto Oct 6 '09 at 18:35
For all integral types (including char), ISO C and C++ actually guarantee that "all bits 0" is the value 0 (though converse is not true: value 0 needs not be "all bits 0" - in case of sign-bit representation, which is legal, either one of +0 and -0 will have one bit not zero). So make it 100%. – Pavel Minaev Oct 7 '09 at 0:15

For the second part of question,

If you need to initialize an array that is like 1000 instead of 2 then use the following

char *keys[1000] = {0};

If you initialize one element of array with a value, then all other members of array will be automatically initialized to zero.

i.e., if you use

char *keys[1000] = {42};

then first member of array will be initialized to 42 and all other members of array will be automatically initialized to zero.

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what about memset(keys, '\0', sizeof(keys))? is there any difference? – user105033 Oct 6 '09 at 17:03
There is a difference if it's an array of float, for example. Using {} will initialize to 0 (or 0.0, or null pointer value), which isn't always the same as all bits 0. – Pavel Minaev Oct 6 '09 at 17:16
Also, you don't have to write ={0}. You can just write ={}. – Pavel Minaev Oct 6 '09 at 17:16

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