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Here's my code

#define ROW 10000
#define COLUMN 10000
void hello(int arr[ROW][COLUMN]){
void main(){
    int arr[ROW][COLUMN];

Now, this gives me segmentation fault. My question is, that I understand that while making a function call, stack is used to keep all the variables passed to the function. So is this the stack of OS? i.e. does OS has a separate memory block designed specially for this?

Also, is the size of stack fixed?

What if I have to pass such great values to my functions?

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up vote 2 down vote accepted

The OS has a separate stack for all of its tasks. It would be terrible, if you could corrupt the OS memory so easily.
Depending on your compiler, you usually have a bout 1 MiB of stack memory. If you need to use such large amounts of memory, use malloc or calloc for allocating memory from the heap.


This is what Windows memory layout looks like.
Here is the article on this.

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1MB? I dont think my array would take that much space? – Kraken Apr 30 '13 at 9:19
Consider, you have 10000 x 10000 elements = 1 MILLION x int = 4 MILLION Bytes... – bash.d Apr 30 '13 at 9:21
Worse, but rather more accurate than @bash.d, 10^4*10^4==10^8 – High Performance Mark Apr 30 '13 at 9:21
Really??? That is indeed worse... Can you explain that, please? – bash.d Apr 30 '13 at 9:22
@Kraken You are right... Failed at basic maths... You should get yourself acquaint with virtual memory, paging and stuff. For example on a 32-bit system, you will have 4 GiB of virtual memory the process can use. So, theoretically you can occupy 4 GiB of memory on the heap, BUT this will eventually kill your machine, as it will be busy paging over and over. – bash.d Apr 30 '13 at 9:32

"It depends". C doesn't even specify that there is anything called "a stack" being used for either local variables or calls.

In practice, yes, it's the process' "real" operating system-created stack that is being used, since that generally has hardware support (most processors have the instructions to implement a stack very efficiently).

Typically, large arrays are best allocated "on the heap", i.e. with malloc().

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What is the max stack memory I can use using malloc()? Size of RAM? – Kraken Apr 30 '13 at 9:17
@Kraken I don't think there is a guarantee of anything there, your operating system could for instance easily implement a per-process (or per-user) limit which would cause malloc() to fail. And that's not "stack memory", it's "heap" or "dynamic" memory. – unwind Apr 30 '13 at 9:36
Yeah, heap, sorry my bad. Thanks. – Kraken Apr 30 '13 at 9:43
malloc() accepts size_t as parameter (implemented as unsigned int). So theoretically you can never exceed than 2^32 (4,294,967,296) bytes. – Ali Apr 30 '13 at 10:24
@Ali Not true on 64-bit systems. – Jim Balter Apr 30 '13 at 11:52

if you are in linux

ulimit -a 

this is the command to see stack size along with other options

 ulimit -s unlimited

will set the stack size to unlimited size

in my machine it was

stack size (kbytes, -s) 8192

where it produced a seg fault and on altering the stack size to unlmited it did work fine

may be

man -a ulimit

is the option to resolve this in program logic

P.S - this is specific to linux environment

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Definitely not. Applications work at user mode, and has its own memory space. For modern OS, each application works at its own memory space, one wouldn't write/read to another's memory (unless using shared memory). When you put too much values, you get stack-over-flow.

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