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I would like to know what is the difference between static memory allocation and dynamic memory allocation?

could you explain this with any example ?

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@fmaas Yaa I mean static memory allocation and dyanamic memory allocation –  Nishant Dec 5 '11 at 12:35

8 Answers 8

up vote 16 down vote accepted

Static Allocation means, that the memory for your variables is automatically allocated, either on the Stack or in other sections of your program. You do not have to reserve extra memory using them, but on the other hand, have also no control over the lifetime of this memory. E.g: a variable in a function, is only there until the function finishes.

void func() {
    int i; /* `i` only exists during `func` */
}

Dynamic memory allocation is a bit different. You now control the exact size and the lifetime of these memory locations. If you don't free it, you'll run into memory leaks, which may cause your application to crash, since it, at some point cannot allocation more memory.

int* func() {
    int* mem = malloc(1024);
    return mem;
}

int* mem = func(); /* still accessible */

In the upper example, the allocated memory is still valid and accessible, even though the function terminated. When you are done with the memory, you have to free it:

free(mem);
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Sure you have control over the lifetime of the variables... you're the one deciding the scope, right? –  Luchian Grigore Dec 5 '11 at 12:47
    
Of course, but that is not what I meant. You cannot extend the lifetime of the variables to outlive its scope. But maybe I should clarify that in my answer. Thanks –  Constantinius Dec 5 '11 at 12:49
1  
-1 This answer is wrong. You confuse static and automatic variables. –  brice Apr 3 '13 at 16:39
4  
@brice -1 your comment is wrong. You confuse "variables" and "allocation". "static variable" != "static allocation" –  Luchian Grigore Apr 3 '13 at 18:20
    

This is a standard interview question:

Dynamic memory allocation

Is memory allocated at runtime using calloc(), malloc() and friends. It is sometimes also referred to as 'heap' memory, although it has nothing to do with the heap data-structure ref.

int * a = malloc(sizeof(int));

Heap memory is persistent until free() is called. In other words, you control the lifetime of the variable.

Automatic memory allocation

This is what is commonly known as 'stack' memory, and is allocated when you enter a new scope (usually when a new function is pushed on the call stack). Once you move out of the scope, the values of automatic memory addresses are undefined, and it is an error to access them.

int a = 43;

Note that scope does not necessarily mean function. Scopes can nest within a function, and the variable will be in-scope only within the block in which it was declared. Note also that where this memory is allocated is not specified. (On a sane system it will be on the stack, or registers for optimisation)

Static memory allocation

Is allocated at compile time, and the lifetime of a variable in static memory is the lifetime of the program.

In C, static memory can be allocated using the static keyword. The scope is the compilation unit only.

Things get more interesting when the extern keyword is considered. When an extern variable is defined the compiler allocates memory for it. When an extern variable is declared, the compiler requires that the variable be defined elsewhere. Failure to declare/define extern variables will cause linking problems, while failure to declare/define static variables will cause compilation problems.

in file scope, the static keyword is optional (outside of a function):

int a = 32;

But not in function scope (inside of a function):

static int a = 32;

Technically, extern and static are two separate classes of variables in C.

extern int a; /* Declaration */
int a; /* Definition */

Register Memory

The last memory class are 'register' variables. As expected, register variables should be allocated on a CPU's register, but the decision is actually left to the compiler. You may not turn a register variable into a reference by using address-of.

register int meaning = 42;
printf("%p\n",&meaning); /* this is wrong and will fail at compile time. */

Most modern compilers are smarter than you at picking which variables should be put in registers :)

References:

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2  
Note: I'd suggest int * a = malloc(sizeof(*a)); instead, to avoid repeating the type of a. This makes things much easier if ever the type of a changes. –  Shahbaz Apr 3 '13 at 16:56
1  
Acutally it's called heap but it has nothing to do with heap data structure. Heap in this case means a messy place –  dynamic Nov 2 '14 at 12:23
    
Thanks @dynamic! Sorry for my mistake, just learnt a lot digging into that. +1 –  brice Nov 3 '14 at 11:56

Dynamic Memory allocation - memory is allocated during run-time in heap. This is used when the amount(size) of memory is variable and is known only during run-time. Dynamic allocation is achieved using certain functions like malloc(), calloc(), realloc(), free in C and "new", "delete" in C++.

Static Memory Allocation - memory allocated at compile time in stack or other data segments. This is used when the amount(size) of memory is static/constant and is known during compile-time.

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Static memory allocation: The compiler allocates the required memory space for a declared variable.By using the address of operator,the reserved address is obtained and this address may be assigned to a pointer variable.Since most of the declared variable have static memory,this way of assigning pointer value to a pointer variable is known as static memory allocation. memory is assigned during compilation time.

Dynamic memory allocation: It uses functions such as malloc( ) or calloc( ) to get memory dynamically.If these functions are used to get memory dynamically and the values returned by these functions are assingned to pointer variables, such assignments are known as dynamic memory allocation.memory is assined during run time.

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static memory allocation. Memory allocated will be in stack.

int a[10];

dynamic memory allocation. Memory allocated will be in heap.

int *a = malloc(sizeof(int) * 10);

and the latter should be *free*d since there is no GC in C.

free(a);
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-1 This answer is wrong. You confuse static and automatic variables. –  brice Apr 3 '13 at 16:48
    
@brice did you just go through all answers and downvote them because you read "static allocation" instead of "static variable"? Not cool dude. –  Luchian Grigore Apr 3 '13 at 22:18

Difference between STATIC MEMORY ALLOCATION & DYNAMIC MEMORY ALLOCATION

Memory is allocated before the execution of the program begins. (During Compilation) Memory is allocated during the execution of the program.

No memory allocation or deallocation actions are performed during Execution. Memory Bindings are established and destroyed during the Execution.

Variables remain permanently allocated. Allocated only when program unit is active.

Implemented using stacks and heaps. Implemented using data segments.

Pointer is needed to accessing variables. No need of Dynamically allocated pointers.

Faster execution than Dynamic. Slower execution than static.

More memory Space required. Less Memory space required.

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static memory allocation are allocated on Stack while the Dynamic memory allocation is allocated on Heap –  Usman Kurd Jan 4 '13 at 8:16

From Pointers on C by Kenneth Reek, 1997:

The storage class of a variable refers to the type of memory in which the variable's value is stored. The storage class of a variable determines when it is created and destroyed and how long it will retain its value. There are three possible places to store variables: in ordinary memory, on the runtime stack, and in hardware registers. Variables stored in these three places will have different characteristics.

The default storage class for a variable depends on where it is declared. Variables declared outside of any blocks are always stored in static memory, that is, in memory that is not part of the stack. There is no way to specify any other storage class for these variables. Static variables are created before the program begins to run and exist throughout its entire execution. They retain whatever value they were assigned until a different value is assigned or until the program completes.

The default storage class for variables declare within a block is automatic, that is, on the stack. There is a keyword auto, but it is rarely used because it doesn't change the default. Automatic variables are created just before the program execution enters the block in which they were declared, and they are discarded just as execution leaves that block. If the block is executed several times, as in the case of a function that is called repeatedly, new copies of the automatic variables are created each time. These new variables may or may not occupy the same memory locations on the stack as the previous instances of the same variables, and even if they do there is no guarantee that the memory was not used for some other purpose in the meantime. We therefore say that automatic variables disappear at the end of the block; they generally will not have their previous values the next time the block is entered.

On variables declared within a block, the keyword static changes the storage class from automatic to static. Variables with static storage class exists for the entire duration of the program, rather than just the duration of the block in which it is declared. Note that changing the storage class of a variable does not change its scope; it is still accessible by name only from within the block. The formal parameters to a function cannot be declared static, because arguments are always passed on the stack to support recursion.

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Static Memory: Static Memory devices are semiconductor memories in which the stored data will remain permanently stored as long as power is applied without the need of periodically rewriting or refreshing the data into the memory. The basic element of this storage is a flip flop or a gate. SRAM, Punched Card and Tape are examples of Static Memory.

Dynamic Memory: Dynamic Memory devices are semiconductor memories in which the stored data will not remain permanently stored, even with power applied unless the data is periodically rewritten into the memory. Data is stored as charge on capacitors. The charge on capacitor has to be periodically refeshed in order to prevent it from leaking away. DRAM & Charge Coupled Device (CCD) are example of Dynamic Memory.

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1  
This question is about memory allocation not the types of hardware memory. –  tijko Mar 29 '14 at 23:38

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