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If I have a function:

void myfunction(char** s);

Then I can pass a char* like this:

char* s = malloc(100);

But my compiler won't allow me to do this:

char s[100] = {0};

I thought that a pointer to the buffer should be allowed by the compiler.

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possible duplicate of Difference between char* and char** (in C) –  Bo Persson Aug 25 '12 at 20:21
Bo Persson - how is it a possible duplicate with that link? –  arcomber Aug 26 '12 at 10:21

2 Answers 2

up vote 4 down vote accepted

Your function expects a pointer to a pointer (char **). You are trying to pass a pointer to an array instead (char (*)[100]). Why do you expect this to "be allowed by the compiler"? Arrays are not pointers. Arrays and pointers are objects of completely different nature. A pointer to a pointer is not in any way compatible with a pointer to an array. You can't use them interchangeably.

If you want you use your array-based buffer with a function that expects char **, you have to explicitly create a pointer to that buffer first

char s[100] = {0};
char *ps = s;

and then pass a pointer to that pointer, as you did before

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Arrays are not pointers? –  Seçkin Savaşçı Aug 25 '12 at 18:09
@Seçkin Savaşçı: Exactly. Arrays are not pointers. (Why is this confusion so persistent? There are like thousands explanations for that issue on SO, not even mentioning numerous FAQs on the Net) c-faq.com/aryptr/index.html –  AndreyT Aug 25 '12 at 18:09
Arrays do decay to pointers at the slightest provocation, so it is odd that they don't in this occasion. –  bitmask Aug 25 '12 at 18:15
@bitmask Not really. The pointer to the first element in an array isn't stored anywhere. It's an rvalue. There is no position in memory for this char** to point to—the compiler doesn't store an array and a pointer to the first element in it. It just knows how to produce that pointer if necessary. –  John Calsbeek Aug 25 '12 at 18:16
@bitmask: Any sort of decay is only possible in value (Rvalue) contexts. We are dealing an object (Lvalue) context, since we are taking the address of the array. It is not surprising that in object contexts any sort of decay is not applicable. You find it odd? Tell then, how would you implement the decay in this case? What would the & operator take the address of? –  AndreyT Aug 25 '12 at 18:17
#include <stdio.h>
#include <stdlib.h>
void myfunction(char* s[]){
    printf("Here: %s",s);
int main(){
    char s[100] = {'a'};
    //char s[100] = "myString";

This works on windows not sure on linux

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This "works" because your compiler used very loose error checking and because your code contains, so to say, "even number of errors", which compensate for each other (2 errors). The first error is illegal call to myfunction: it expects char **, you supplied char (*)[100] instead. The second error is invalid call to printf: it expects char *, you supplied char ** instead. Increase the error checking levels in your compiler and it should catch both errors (the first one at least). Try this comeaucomputing.com/tryitout in C mode to get more pedantic analysis of what you wrote. –  AndreyT Aug 25 '12 at 19:37

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