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Why does the following code output 4?

char** pointer = new char*[1];
std::cout << sizeof(pointer) << "\n";

I have an array of pointers, but it should have length 1, shouldn't it?

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Why do you think you need a char**? In C++, we prefer the type std::vector<std::string>. Then you can simply call .size() and get the desired result. – fredoverflow Aug 3 '10 at 15:07
up vote 19 down vote accepted

pointer is a pointer. It is the size of a pointer, which is 4 bytes on your system.

*pointer is also a pointer. sizeof(*pointer) will also be 4.

**pointer is a char. sizeof(**pointer) will be 1. Note that **pointer is a char because it is defined as char**. The size of the array new`ed nevers enters into this.

Note that sizeof is a compiler operator. It is rendered to a constant at compile time. Anything that could be changed at runtime (like the size of a new'ed array) cannnot be determined using sizeof.

Note 2: If you had defined that as:

char* array[1];
char** pointer = array;

Now pointer has essencially the same value as before, but now you can say:

 int  arraySize = sizeof(array); // size of total space of array 
 int  arrayLen = sizeof(array)/sizeof(array[0]); // number of element == 1 here.
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How to determine the size of an array at runtime? Only by keeping track of what length I created it with? – a1337q Aug 3 '10 at 14:09
Pretty much, that's it. Youhave to remember what size you new'ed it to. Note that the run-time library must also store that info somewhere (so it know how many destructors to run), but that not made accessible. – James Curran Aug 3 '10 at 14:13
Yes, or use std::vector< >. It has a size method. – MSalters Aug 3 '10 at 14:13

sizeof always returns a number of bytes.

Here, pointer is an ... err ... pointer and is 32 bits on 32 bits architectures, i.e. 4 bytes.

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and 8 bytes on a 64bit system, but only when you compile in 64bit mode – Chris Huang-Leaver May 9 '11 at 9:51

When you call sizeof you're asking for how large it is in terms of bytes. A pointer is actually an integer that represents an address where the data you're pointing to is, and assuming that you're using a x32 operating system the size of an int is 4 bytes.

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a pointer is an integer looks weird to me! – Didier Trosset Aug 3 '10 at 13:50
actually, the pointer is a pointer. It usually corresponds to the machine word, but I wouldn't call it an int, that's mixing concepts. – falstro Aug 3 '10 at 13:51
Ooh, think I had this problem once before. So I divide sizeof(..) by 4. Thx. – a1337q Aug 3 '10 at 13:51
@a1337q; the sizeof of a pointer will (most likely) always be 4 on a 32-bit archtitecture, you can't use it to determine the size of an array, no matter how you try. – falstro Aug 3 '10 at 13:53
It's an integer, but not necessarily an int (although pointers are frequently the same size as ints, as both are usually the size of the CPU's internal registers) – James Curran Aug 3 '10 at 13:57

pointer is of type char**, whic has size of 4

what you might want is char * pointer [1]

but to have the length of such array you need the following code

int len = sizeof(pointer)/sizeof(char*)

check this out:

int * pArr = new int[5];
int Arr[5];

sizeof(pArr); //==4 for 32 bit arch
sizeof(Arr); //==20 for 32 bit arch
sizeof(Arr)/sizeof(int); //==5 for any arch
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Any idea how to get the size of "pArr" ? – DKK Jul 30 '13 at 17:32

sizeof does not give you the size of dynamic arrays (whose size is only determined at run-time, and could be of different size during different executions).

sizeof is always evaluated at compile-time and it gives you the size of the type in question, in this case the type is char** - a pointer (to pointer).

It is your task to keep track of the size of dynamically allocated arrays (you know how much you requested in the first place). Since it is a burden, all the more reason to use containers and the string class, which keep track of the allocation size themselves.

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