# C : Why the size of my pizza is not 10 bytes? [duplicate]

This question already has an answer here:

I was learning `sizeof` and this stumbles me. I decided to do this.

``````#include<stdio.h>
#include<string.h>
int main(){
char *myWord="PIZZA";
printf ("The size of P is...:%d\n",sizeof("P"));
printf ("The size of I is...:%d\n",sizeof("I"));
printf ("The size of Z is...:%d\n",sizeof("Z"));
printf ("The size of A is...:%d\n",sizeof("A"));
printf ("The size of R is...:%d\n",sizeof("R"));
printf ("The size of PIZZA is...:%d\n",sizeof("PIZZA"));
printf ("The size of *PIZZA is..:%d\n",sizeof(myWord));
return 0;
}
``````

And I'm very surprised to see the result:

``````The size of P is...:2
The size of I is...:2
The size of Z is...:2
The size of A is...:2
The size of R is...:2
The size of PIZZA is...:6
The size of *PIZZA is..:4
``````

The question are the following:

Why the size of array char and pointer char is respectively, 6 bytes and 4 bytes
How come they "cruncuh" a 5 letters * 2bytes = 10 bytes. into 6 bytes and 4 bytes?

Let me explain my second question:

From what I know, C doesn't store the letters as it is, but store the letter as ASCII code.

This is proofed by this code

`printf ("ASCII CODE of A:%d",myWord);`

results:

`ASCII CODE of A:65`

So assuming I'm right, then C stores the word as `[80,73,90,65,65]`, so 5 chars * 2 bytes is equal..... 10 bytes! But the code above shows 6 bytes and 4 bytes! That's what I mean by crunch in the question number two. C crunches 10 bytes into 6 bytes and 4 bytes.

Any enlightenment is appreciated =)

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This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

• `myWord` is a pointer, so the size of a pointer (in your case) is 4 bytes. Also, each `char` is only 1 byte. You're seeing 2 bytes for each "character" because they're actually 2-character strings (one character plus one null-terminator). – Drew McGowen Jul 31 '14 at 14:25
• `char` is only 1 byte? That explains. – Realdeo Jul 31 '14 at 14:27
• @Realdeo `char` is defined to always be exactly one byte by the C standard. – The Paramagnetic Croissant Jul 31 '14 at 14:29
• `sizeof(char)` is 1 by definition, regardless of how many bits it contains. – Fred Larson Jul 31 '14 at 14:29
• And by POSIX `CHAR_BIT == 8`. – user3793679 Jul 31 '14 at 15:06

## 7 Answers

Each single letter is a string of 2 characters the letter and the null end of string marker. "PIZZA" is 5 letters + null for 6 characters and *PIZZA is the size of the variable, a pointer, which is 4 bytes.

`"P"` isn't a `char`, it's a string literal. Strings are null terminated, so require one extra byte of storage. Hence `sizeof("P")` is 2. String literals are stored as arrays of type `char`.

Likewise, `"PIZZA"` is six bytes to include the null terminator (`'\0'`).

If you check `sizeof('P')`, you'll get the same as `sizeof(int)`, since `'P'` is a character literal, and those are stored as int values, although they are commonly assigned to a `char` since they don't exceed the ASCII range.

`myWord` is a pointer, hence whatever size that is on your system -- evidently 4.

One letter is not two bytes. It's one byte. `"P"` is a string, though, and C strings are 0-terminated: they have a trailing 0 byte automatically added by the compiler, hence an `N`-letter string's size is `N + 1`.

As to your second question: `"PIZZA"` is a string literal. It's an array of 6 `char`s. Hence its size is 6.

`char *myWord`, on the other hand, declares `myWord` to be a pointer. Apparently, the size of a pointer on your platform is 4. The fact that you can "assign an array to a pointer", i. e. that there's an implicit conversion from `T []` to `T *` in C is just a(n often misunderstood) feature of C.

"Why the size of array char and pointer char is respectively, 6 bytes and 4 bytes "

The array has 6 elements - 5 characters and zero terminator. Each element is a character which is one byte.

Just a wild guess but I think in case of each of these string there is a end string char added to each case so when you do a sizeof("P") you are actually seeing sizeof('P' + '\0')

``````sizeof("P");//size is 2 because each char takes 1 byte and
//it is  trailed by '\0' so two Bytes
``````

if you try `sizeof(char);` it would give you 1 Byte

if you try `sizeof(int);` it would give you 2 Bytes

But here `sizeof("P")` will be 2 bytes because it is trailed by '\0' which takes one more Byte.Same apply for `sizeof("Pizza"); // 5+ trailing \0 = 6 bytes`

`sizeof(myWord);` is 4 Bytes since it is a pointer

Let's start from here:

``````char *myWord="PIZZA";
``````

`"PIZZA"` is a string literal; it is stored as a 6-element array of `char` (5 letters plus 0 terminator) in such a way that it's available over the lifetime of the program. `myWord` is a variable of type `char *`, and it's initialized with the address of the first letter in the string. In memory, it would look something like this (this is how it plays out on my system, anway):

``````Item        Address          0x00 0x01 0x02 0x03
----        -------          ---- ---- ---- ----
"PIZZA"     0x4006e0          'P'  'I'  'Z'  'Z'
0x4006e4          'A'   0    ??   ??
...
myWord     0x7fffa7e983d0   0x00 0x00 0x00 0x00
0x7fffa7e983d4   0x00 0x40 0x06 0x90
``````

`sizeof("PIZZA")` (or `sizeof "PIZZA"`; the parentheses are only required when the operand is a type name) gives you the total number of bytes in the array (in this case, 6).

`sizeof(myWord)` (or `sizeof myWord`; again, the parentheses aren't needed in this case) gives you the size of the pointer variable in bytes; in your case, 4.

`sizeof("P")` is giving you the size of the string literal `"P"`, which is 2 (one letter plus the 0 terminator). If you want the size of the character constant `'P'`, you would write `sizeof 'P'` (note single quotes instead of double quotes). Except...

In C, the type of a character constant like `'P'` is `int`, not `char`, so the result (most likely) still won't be 1.

Here's how things play out on my system:

``````#include <stdio.h>

int main( void )
{
char c = 'P';
char *myWord = "PIZZA";

printf( "sizeof \"PIZZA\"    == %zu\n", sizeof "PIZZA" );
printf( "sizeof myWord     == %zu\n", sizeof myWord );
printf( "value of myWord   == %p\n", (void *) myWord );
printf( "sizeof *myWord    == %zu\n", sizeof *myWord );
printf( "value of *myWord  == %c\n", *myWord );
printf( "address of myWord == %p\n", (void *) &myWord );
printf( "sizeof \"P\"        == %zu\n", sizeof "P" );
printf( "sizeof 'P'        == %zu\n", sizeof 'P' );
printf( "sizeof c          == %zu\n", sizeof c );

return 0;
}

[fbgo448@n9dvap997]~/prototypes/sizes: gcc -o sizes -g -std=c99 -pedantic -Wall -Werror -Wa,-aldh=sizes.lst sizes.c
[fbgo448@n9dvap997]~/prototypes/sizes: ./sizes
sizeof "PIZZA"    == 6
sizeof myWord     == 8
value of myWord   == 0x4006e0
sizeof *myWord    == 1
value of *myWord  == P
myWord string     == PIZZA
address of myWord == 0x7fffd8a9eb40
sizeof "P"        == 2
sizeof 'P'        == 4
sizeof c          == 1
value of c        == P
``````