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char *a = "apple";
printf("%s\n", a);  // fine
printf("%s\n", a[1]);  // compiler complains an int is being passed

Why does indexing a string pointer give me an int? I was expecting it to just print the string starting at position one (which is actually what happens when i use &a[1] instead). why do i need to get the address?

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5 Answers 5

up vote 13 down vote accepted

That's just how the [] operator is defined - a[1], when a is a char *, fetches the next char after the one pointed to by a (a[0] is the first one).

The second part of the puzzle is that char values are always promoted to int (or rarely, unsigned int) when passed as part of a function's variable-length argument list.

a is equivalent to &a[0], and it prints from the first character - so it makes sense that &a[1] would print starting from the second character. You can also just use a + 1 - that's completely equivalent.

If you use the %c conversion specifier, which prints a single character, you can use a[1] to print just the second character:

printf("%c\n", a[1]);
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The expression a[1] yields a single char, and in expressions that is widened to an int.
You can print a char with %c:

char *a = "apple";
printf("%c\n", a[1]);   // prints 'p'

You can achieve what you want by using a+1, like

printf("%s\n", a+1);    // prints 'pple'

An other way to explain this:

char *a2 = a+1;   // a2 points to 'pple'   
a[1] ≡ *(a+1)  ≡ *a2 
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%s expects a char* pointer. Char alone is interpreted as an integer. Moreover, a[1] gives you the second element, not the first!

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1  
a "char * pointer" would be a "char**" (I bet you're one of those people who say things like ATM machine!) –  Grant Peters Apr 18 '10 at 10:42
    
Our ATMs mostly say "Please wait ..." –  Danvil Apr 18 '10 at 20:12

Characters (i.e. the kind of thing that a[1] evaluates to) are integers, but the "%s" formatter for printf() expects a pointer. Note that the fact that this error was detected at all is an extended feature offered by some compilers - it's not part of Standard C. Other compilers would simply fail at run-time, probably with a core dump.

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char *a = "bla"

a : is a char*, and you should use %s for printf(...);

a[1] is equivalent to *(a+1), then a[1] is a char, and you should use %c for printf(...);

&a[1] is equivalent to &(*(a+1)), then &a[1] is a char* , and you should use %s for printf(...);

This is more like a pointer question. To better understand how pointers work, think this way:

char *j;

j is a char*
*j is a char, and equivalent with j[0]
*(j+1) is a char, and equivalent with j[1]
&(*j) is achar*, and equivalent with &j[0], equivalent with j
&j is a char**

Another example:

char j**

j is a char**
*j is a char*
**j is a char, and equivalent with *(*(j+0)+0), and equivalent with j[0][0]
&j is a char***

and so on...

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