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I am using an array in C# like so:

class abc 
    xyz x = new xyz(); // some other class
    public double [] arr = new double [100]; // Allocated 400 bytes 
                                             // for this array.
                                             // 100 is imaginary size 
                                             // shown here for simplicity.
                                             // Actual size will depend on input.
    private void something() 

In class abc above array is consuming 400 bytes. Now, I have passed this array in some function as a parameter which is in class xyz.

My question is whether new 400 bytes will be allocated in class xyz. 400 bytes is not that much of concern, but in my program I am passing an array which is taking one MB.

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You may wanna see the article from Andrew Hunter about Object Overhead: The Hidden .NET Memory Allocation Cost –  Habib Jul 11 '12 at 5:58

2 Answers 2

up vote 2 down vote accepted

The amount of memory that is needed to store a reference. As far as I remember, it is 8 bytes on a 32-bit machine and 12 bytes on a 64-bit machine.

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Usually it's the size of a DWORD for 32-bit and the sizeof a QWORD (double-doubleword) for 64-bit. i.e 32-bits and 64-bits respectively. –  Jason Larke Jul 11 '12 at 5:48
Adding to @Alex's answer, Arrays are allocated on heap and passed by reference only. –  Furqan Jul 11 '12 at 5:49
Thanks you all for answering , i was aware of this but was not 100 % sure that's why gave trouble to you –  Ashish Sharma Jul 11 '12 at 5:53

For reference types, only the reference itself is pushed onto the stack during a function call. For value types, the value itself is pushed onto the stack.

objects/arrays/etc are all reference types, which mean only a reference to the object is pushed onto the stack for a function call, the actual object itself will reside in the GC Heap or wherever the process is allocating dynamic memory. The size of a reference is architecture dependent, but will vary from 32-64 bits (4-8 bytes) on most modern systems.

You may want to read up on value and reference types:



This is one of the times where C# can be slightly counter-intuitive in its simplicity. It's easier to visualize from a C++ point of view:

double *data = new double[100]; //you can see here that "data" is merely a pointer to a double array with 100 elements, it doesn't actually hold the array itself.
somefunction(data); //now, it's more obvious what we're doing here: data is just a pointer, so all we're doing is passing a pointer to the function, not a double array.
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