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I know I shouldn't use Dev-C++ but it's mandatory in school so I can't do anything about it.

Topic is pointers in C/C++ and a bug occurred while measuring the length of an integer array. See the code below:

# include<iostream>
# include<string.h>

using namespace std;

int main(){
    //neues Feld anlegen
    int *a = new int[5];

    a[0] = 12;
    a[1] = 5;
    a[2] = 43;
    a[3] = -12;
    a[4] = 100;
    // Feld füllen

    for(int i = 0; i<sizeof(a);i++){
    return 0;


The sizeof() returns 4 and not 5...Any ideas?

share|improve this question
My first idea is that unless you are God, you should never assume that unexpected behaviour is someone else's fault, least of all a "compiler bug". The only right question to ask is "Where do I fail to understand C and C++ in this piece of code?" – Kerrek SB Nov 14 '11 at 13:59
"so I can't do anything about it." I feel your pain, but you could at least point your instructors to the information here. :) – Bart Nov 14 '11 at 14:02
A bug in sizeof is almost impossible for a compiler, it means almost everything is broken if sizeof is broken! Bugs in compilers are rare, Microsoft and GCC have some but only if you do really weird stuff, especially with templates! – Salvatore Previti Nov 14 '11 at 14:08
arrays are not pointers; pointers are not arrays. Read the comp.lang.c faq starting with section 6 :) – pmg Nov 14 '11 at 14:12
Just to make one thing clear: sizeof(a) wouldn't be 5, even if the type of a was actually int[5] – UncleBens Nov 14 '11 at 16:10
up vote 25 down vote accepted

It is not a bug because its returning the size of a itself (which is of type int* - 4 bytes on a 32 bit build), not the length of the array.

Please note - others say that the size is dependent on the operating system, which is half-true. It really depends on the build. sizeof is a compile-time construct.

share|improve this answer
Thanks for the explanation – Sebastian Nov 15 '11 at 10:43

First of all, you shouldn't think that the culprit of a "strange" behaviour is the compiler: most of the time the bug is yours.

In fact, your sizeof instruction tells you what's the size of an int* and that's by design, so it's not a compiler's fault but your misunderstanding. There's no way to use sizeof to tell the size of a dynamically allocated array.

share|improve this answer

a in this case is a pointer, a size of a pointer depends on the compiler.

You are doing sizeof(int*). Indeed you are using a 32 bit compiler, and for your compiler\system pointers are 32 bits.

You cannot get the size of an object allocated with new from its pointer, sizeof is evaluated at compile time, not at runtime.

To obtain the size of the array you should do...

int a[5]; // Array allocated in stack, we can use sizeof.
std::cout << (sizeof(a) / sizeof(int));

sizeof returns the size in bytes not the number of elements on an array.

That code is equivalent to write

std::cout << (sizeof(int[5]) / sizeof(int));
share|improve this answer

sizeof does not tell you an array size. It tells you the size of a datatype, in this case, an int*, which on your platform is 4 bytes. It will always be 4 regardless of the number of array elements.

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In case he would have declared char a[5], sizeof() would have returned an array size, in that case the expected 5. Anyhow sizeof() does not return the number of elements in an array. – alk Nov 14 '11 at 14:04

Local variable a is a pointer type (int*). Pointer size is 4 bytes in 32bit operating systems.

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int* a;

is equivalent to:


Which is variable, depending on the platform. On most x32 platforms, it will be 4 bytes, and on x64 platforms 8 bytes.

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also the misconception that you have here is that

int a* = new int[5];

means that you are declaring a as a pointer to an array of int types. This is infact not the case.

int a* means that you are declaring a pointer to an int.

new int[5] means that you are allocating memory space for 5 int types.

int a* = new int[5]; means that you are allocating memory for storing 5 ints and setting the int point a to point to the first element.

If you had declared an array:

int a[5];  // an array of 5 ints

then you could:

for (int i=0; i< (sizeof(a)/sizeof(a[0])); i++)

cout<< sizeof(a)/sizeof(a[0]);
share|improve this answer

easier way to do what you want:

    #define NumberOfInts 5

    int* a = new int[NumberOFInts];

    for(int i = 0; i<NumberOfInts; i++){ 

I'm not sure if this is generally considered "good style" but it will fix your code.

share|improve this answer

You just get the size of a pointer but not the size of the array. If you compile this code as 64-bit, you will get another result.

I usually use the code below:

const int ARRAY_SIZE = 5;

int a* = new int[ARRAY_SIZE];
for (int i = 0; i < ARRAY_SIZE; ++i)
    // Do something.

// Release
if (a)
    delete[] a;
    a = NULL;
share|improve this answer

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