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Is there a max limit to the number of bytes you can allocate to an array pointer?

For example if i use a size of 16000 then this works.

char* iobuffer=new char(16000);


char* iobuffer=new char(160000);

this does not.

It shouldn't be a memory issue so is there some internal restriction? After looking further it might be that the heap cannot store that much.

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What do you mean by "this does not"? What happens? Also, what is the environment this program is running in? Is it a typical PC? or perhaps an embedded app? –  Justin Waugh Apr 8 '11 at 0:58

2 Answers 2

up vote 9 down vote accepted

You've actually got your allocation code wrong. You're using parenthesis, which provide an initializer for your newly allocated value. In other words, in both cases you have a single char allocated for use, initialized to 16000 and 160000 respectively. Use brackets to dynamically allocate an array.†

After that, you subscript (way) out of bounds, leading to undefined behavior. (Any subscript past zero in your case is undefined behavior; more generally, subscripting past array bounds is undefined behavior.)

To answer the question, there is no limit, language-wise. It depends on your running environment.

†Of course, you should never use new[]. Use std::vector instead.

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Then why does the first case work? Surely 15000 is out of bounds for a size 1 array... –  bdares Apr 8 '11 at 0:59
It doesn't "work". It's undefined behavior. You simply got lucky. (Or, one could argue unlucky as to you it seemed it was working) –  Brian Roach Apr 8 '11 at 1:00
I bet if you turn on optimization (pass -O2 to GCC), the first case won't work any more. -O0 seems to give bad programming a lot of slack. –  Seth Johnson Apr 8 '11 at 1:10

To answer your question, the limit is the largest block available on the heap. It's not a constant number, even throughout the execution of your program it changes.

That is why, you must always verify that the memory was allocated. After each new check the result for null pointer and catch exceptions, if those are enabled.

All that regardless of the mistakes in your code which were pointed out already, and the valid suggestion to use std::vector instead of directly allocating arrays.

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new will never return null in C++. –  GManNickG Apr 8 '11 at 1:14
Except in some special cases like really old compilers and strange embedded environments, operator new will never return null unless you use std::nothrow. I hate seeing code cluttered with null checks that can never be triggered. -- parashift.com/c++-faq-lite/freestore-mgmt.html#faq-16.6 –  Tim Sylvester Apr 8 '11 at 1:25
Well, forgive me for being used to some old compilers and embedded environments where we have exceptions disabled by default:-) Better safe than sorry, I say, but using std::vector instead solves the issue in a much better way anyway. –  littleadv Apr 8 '11 at 1:27
What happens when std::vector can't allocate memory and exceptions are disabled? Do you get some "push back"? (sorry) But seriously, does it crash the app, or do you have to check that the size of the vector actually increased every time you add something to it? Both of those possibilities are just awful. –  Tim Sylvester Apr 8 '11 at 2:10
@littleadv: std::vector guarantees a contiguous memory block just like any new sometype[N] returns. This allows you to, for example, pass &(x[0]) to old C-style routines that want a pointer to allocated memory. parashift.com/c++-faq-lite/containers.html#faq-34.3 –  Seth Johnson Apr 8 '11 at 2:59

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