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language is C with gcc compiler

if i make a struct like so

struct test {

    char item_1[2];
    char item_3[4];
    char item_4[2];
    char item_5[2];
    char item_6[4];


and i do a sizeof(struct test) it returns 14(bytes). which is the expected result.

but if i do

struct test {

    int16_t item_1;
    int32_t item_3;
    int16_t item_4;
    int16_t item_5;
    int32_t item_6;


sizeof(struct test) will return something strange like 44. when i debug using gnu ddd i can see inside the structure and see that it all looks normal and all items have the expected number of bytes.

so why is the sizeof operator returning a unexpected value ?

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int16_t[2] = 4 bytes * 3 = 12 bytes; int32_t[4] = 16 bytes * 2 = 32 bytes; 12 + 32 = 44. –  Jon Sep 12 '11 at 23:23

5 Answers 5

up vote 1 down vote accepted

Compilers may insert padding between struct members, or after the last member. This is normally done to satisfy alignment requirements. For example, an int32_t object might require 4-byte alignment, so the compiler inserts 2 bytes of padding between the first and second members. The details will vary depending on the platform.

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thanks Keith Thompson and sqykly i understand it now –  maxim Sep 13 '11 at 2:37

You have mixed 32/16 bit integers.

int16_t item_1[2]; // 2 * 2 = 4
int32_t item_3[4]; // 4 * 4 = 16
int16_t item_4[2]; // 2 * 2 = 4
int16_t item_5[2]; // 2 * 2 = 4
int32_t item_6[4]; // 4 * 4 = 16
                   // sum = 44
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my mistake, i cant edit my post. i ment to write struct test { int16_t item_1; int32_t item_3; int16_t item_4; int16_t item_5; int32_t item_6; }; –  maxim Sep 12 '11 at 23:27
click the edit link below your tags. –  Daniel A. White Sep 12 '11 at 23:29
@maxim: The size of the modified structure in your comment is 16 bytes because the compiler is adding padding bytes to ensure aligned memory access. –  Mike Steinert Sep 12 '11 at 23:46
@maxim: You should have been able to edit your own question, but I went ahead and did it for you. Please check what I wrote. –  Keith Thompson Sep 12 '11 at 23:52

compiler is required to insert padding between structure members to align each member on its type's boundary and to order the structure's members as written. If you reorder them such that the largest members are at the beginning of the structure definition, they will be the same size. But since you're trying it with arrays of char, I'm guessing you don't have the structure's original definition, and you're trying to access some externally defined and created object's fields. In that case, I suggest you either obtain the proper headers or use the char[] version and cast char* to whatever type it really is.

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The alignment issue is because modern 32-bit CPU's work in 32-bit word sizes on 32-bit address boundaries. If a 32-bit word on a 32-bit boundary contains 2 16-bit values, this results in extra instructions being required to obtain the correct 16-bits (i.e. masking and shifting so that the correct 16-bits are all that remains). If a 32-bit word is split across a 32-bit boundary then there is even more work to do to retrieve it.

By default the trade-off is to have faster programs and not use the memory as efficiently as possible. If an extra couple of instructions are needed everywhere where a structure member is used then this will probably use more memory than tighter packing the structure saves so whilst not obvious at first it's the correct choice.

If you have a requirement to store structures efficiently (at a cost to performance) then "#pragma pack" allows you to tighter pack members, but it results in bigger slower programs.



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struct test {
    int16_t item_1[2]; // 2 * 16 +
    int32_t item_3[4]; // 4 * 32 +
    int16_t item_4[2]; // 2 * 16 +
    int16_t item_5[2]; // 2 * 16 +
    int32_t item_6[4]; // 4 * 32
                       // total = 352

352 bits divided by 8 (8 bits go into one byte) is 44 bytes.

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i actually ment to write the sencond struct with no arrays. just the single values. and it retuns 16 instead of 14 –  maxim Sep 12 '11 at 23:29

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