Given an array of pointers to string literals:

char *textMessages[] = {
    "Small text message",
    "Slightly larger text message",
    "A really large text message that "
    "is spread over multiple lines"

How does one determine the length of a particular string literal - say the third one? I have tried using the sizeof command as follows:

int size = sizeof(textMessages[2]);

But the result seems to be the number of pointers in the array, rather than the length of the string literal.

  • 3
    sizeof(textMessages[2]) will yield the size of the char* type. It's purely coincidental that sizeof(char*) happens to be 4 on your system, and nothing to do with the number of elements in your array. – Ben Cottrell Sep 22 '12 at 7:33
  • You should consider using the definition static const char textMesssages[][4] for your array. – Michael Foukarakis Sep 22 '12 at 8:43
  • 1
    @MichaelFoukarakis There are only three pointers in the array (note the string concatenation). – Jens Sep 22 '12 at 10:19
  • @Jens: Oh well, my point didn't really lie in the choice of number, although I'd advocate for having a sentinel value. – Michael Foukarakis Sep 22 '12 at 11:20

If you want the number computed at compile time (as opposed to at runtime with strlen) it is perfectly okay to use an expression like

sizeof "A really large text message that "
       "is spread over multiple lines";

You might want to use a macro to avoid repeating the long literal, though:

#define LONGLITERAL "A really large text message that " \
                    "is spread over multiple lines"

Note that the value returned by sizeof includes the terminating NUL, so is one more than strlen.

  • I wish to determine the length of each string so that I can index the lengths and pass them to a function. Is it possible to compute such an array of lengths at compile time? – Zack Sep 23 '12 at 2:12
  • 1
    My approach would be to declare and initialize an array of struct { char *ptr; size_t len; } x[]. Then you can call foo(x[i].ptr, x[i].len). Since C doesn't keep string lengths around, there is no other way than to keep track of string lengths in your code. – Jens Sep 23 '12 at 10:09

My suggestion would be to use strlen and turn on compiler optimizations.

For example, with gcc 4.7 on x86:

#include <string.h>
static const char *textMessages[3] = {
    "Small text message",
    "Slightly larger text message",
    "A really large text message that "
    "is spread over multiple lines"

size_t longmessagelen(void)
  return strlen(textMessages[2]);

After running make CFLAGS="-ggdb -O3" example.o:

$ gdb example.o
(gdb) disassemble longmessagelen
   0x00000000 <+0>: mov    $0x3e,%eax
   0x00000005 <+5>: ret

I.e. the compiler has replaced the call to strlen with the constant value 0x3e = 62.

Don't waste time performing optimizations that the compiler can do for you!


strlen gives you the length of string whereas sizeof will return the size of the Data Type in Bytes you have entered as parameter.




strlen maybe?

size_t size = strlen(textMessages[2]);
  • 3
    Why compute this number at runtime when it can be determined at compile time? – Jens Sep 22 '12 at 9:21
  • 1
    @Jens: Not unless you also know the string at compile time. – Tudor Sep 22 '12 at 10:09
  • @Tudor, yes - you do know the length at compile time (the question says "String Literal") – ideasman42 Dec 29 '12 at 9:04

You should use the strlen() library method to get the length of a string. sizeof will give you the size of textMessages[2], a pointer, which would be machine dependent (4 bytes or 8 bytes).


You could exploit the fact, that values in an array are consecutive:

const char *messages[] = {

size_t sizeOfMessage1 = (messages[1] - messages[0]) / sizeof(char); // 7   (6 chars + '\0')

The size is determined by using the boundaries of the elements. The space between the beginning of the first and beginning of the second element is the size of the first.

This includes the terminating \0. The solution, of course, does only work properly with constant strings. If the strings would've been pointers, you would get the size of a pointer instead the length of the string.

This is not guaranteed to work. If the fields are aligned, this may yield wrong sizes and there may be other caveats introduced by the compiler, like merging identical strings. Also you'll need at least two elements in your array.

  • 4
    This is not guaranteed to work. While the pointers in the array must be consecutive, the string literals need not. Think of alignment and such. Or using the same pointer for identical string literals. – Jens Sep 22 '12 at 13:09
  • You're right, alignment would break this (but that's controllable). Different sizes for char would break this, too. I'll mark my answer as not reliable. – nemo Sep 22 '12 at 20:37
  • 1
    Merging identical strings, a common optimization, also breaks it. – Jens Sep 22 '12 at 20:38

I'll tell you something, as per my Knowledge arrays an pointers are the same thing except when you use sizeof.

When you use sizeof on a pointer it will return always 4 BYTE regardless the thing that pointer points to, but if it used on array it will return How long the array is big in bytes?.

In you example here *textMessage[] is array of pointer so when you use sizeof(textMessage[2]) it will return 4 BYTE because textMessage[2] is a pointer.

I hope it'll be useful for you.

  • I didn't understand what you want – Mahmoud Emam Sep 22 '12 at 19:44
  • My intent was to tell you to improve your knowledge on the difference of arrays and pointers by reading all of c-faq.com/aryptr/index.html Arrays are not pointers and they are often 2 or 8 instead of 4 bytes and their size may even depend on what type they point to. So, most of what you wrote is technically incorrect. – Jens Sep 22 '12 at 20:06
  • Pointers are not always 4 bytes. – Jeff G Feb 9 '16 at 19:01

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