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In C, I have declared a memory area like this:

int cells = 512;
int* memory = (int*) malloc ((sizeof (int)) * cells);

And I place myself more or less in the middle

int* current_cell = memory + ((cells / 2) * sizeof (int));

My question is, while I increment *current_cell, how do I know if I reached the end of the allocated memory area?

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up vote 6 down vote accepted
if (current_cell >= memory + cells)

However! You have a large problem in your code. If you want current_cell to be somewhere near the middle of the memory region, you should actually do this:

int* current_cell = memory + (cells / 2);

The pointer arithmetic will take care of the multiplying by sizeof(int).

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While you're within the valid indices the following holds true:

memory <= current_cell && current_cell < memory + cells

so if you only increment the address it's enough to check for

current_cell < memory + cells

however be careful - you might increment the address by such a bug value that it overflows and becomes less than memory. Only use the second simpilfied condition if you're sure overflow can't happen.

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are you sure it's not cells*sizeof int? that was my doubt. – Federico Culloca Apr 5 '10 at 14:44
@klez: Certainly no *sizeof(). With a type* pointer (type + N) points onto the Nth element - the compiler will do the *sizeof(Type) multiplication. – sharptooth Apr 5 '10 at 14:46
It is not. When you use + or - with a pointer and an integral type, it adds or subtracts elements, not bytes. – Mike DeSimone Apr 5 '10 at 14:47

And I place myself more or less in the middle

int* current_cell = memory + ((cells / 2) * sizeof (int));

Actually, no. The correct expression would be:

int* middle = memory + cells / 2;

since pointer arithmetic takes the type of the pointer into account. In other words, this expression:

memory + 1

increments the pointer not by a single byte but by sizeof(int) bytes.

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The index in the array, which starts at memory, equivalent to the pointer current, is just current - memory -- the "scaling" (by sizeof(int)) is taken care of for you. So, you know the pointer is valid (i.e., within the bounds of the cells-long array starting at memory) if and only if the index is >=0 and <cells (from 0 to 511 included, in your example):

((current - memory) >= 0) && ((current - memory) < cells)
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