# C++ Array Allocation Segmentation Fault 11 Newbie

I am learning C++ from Algorithms in C++ by Robert Sedgewick. Right now I am working on the Sieve of Eratosthenes with a user specified upper bound on the largest prime. When I run the code with max 46349, it runs and prints out all primes up to 46349, however when I run the code with max 46350, a Segmentation fault occurs. Can someone help to explain why?

``````./sieve.exe 46349
2 3 5 7 11 13 17 19 23 29 31 ...

./sieve.exe 46350
Segmentation fault: 11
``````

Code:

``````#include<iostream>

using namespace std;

static const int N = 1000;

int main(int argc, char *argv[]) {
int i, M;

//parse argument as integer
if( argv[1] ) {
M = atoi(argv[1]);
}

if( not M ) {
M = N;
}

//allocate memory to the array
int *a = new int[M];

//are we out of memory?
if( a == 0 ) {
cout << "Out of memory" << endl;
return 0;
}

// set every number to be prime
for( i = 2; i < M; i++) {
a[i] = 1;
}

for( i = 2; i < M; i++ ) {
//if i is prime
if( a[i] ) {
//mark its multiples as non-prime
for( int j = i; j * i < M; j++ ) {
a[i * j] = 0;
}
}
}

for( i = 2; i < M; i++ ) {
if( a[i] ) {
cout << " " << i;
}
}
cout << endl;

return 0;
}
``````
-
A segmentation fault is typically caused by writing beyond the bounds of allocated memory. You should use the debugger (or add print statements) to track the progress of your program, in order to find out at what point this occurs. –  Oliver Charlesworth Mar 2 '13 at 17:00
Note that `new` will not return `NULL` if allocation fails (unless `nothrow` is specified, which it isn't here). It will throw a `std::bad_alloc` exception. –  Cornstalks Mar 2 '13 at 17:00

You have integer overflow here:

``````        for( int j = i; j * i < M; j++ ) {
a[i * j] = 0;
}
``````

`46349 * 46349` does not fit in an `int`.

On my machine, changing the type of `j` to `long` makes it possible to run the program for larger inputs:

``````    for( long j = i; j * i < M; j++ ) {
``````

Depending on your compiler and architecture, you may have to use `long long` to get the same effect.

-

When you run your program with a debugger, you will see that it fails at

``````a[i * j] = 0;
``````

`i * j` overflows and becomes negative. This negative number is less than `M`, that's why it enters the loop once more and then fails on access to `a[-2146737495]`.

-
Being pedantic, and I'm sure you know this, but it technically doesn't have to be -2146737495. –  chris Mar 2 '13 at 17:09
@chris This is just cut and paste from gdb. –  Olaf Dietsche Mar 2 '13 at 17:16

I see, the problem was declaring M as an int. When I declare i,M and j as long, this seems to work fine.

-
I wouldn't count on `long` to do this. `long` is at least 32 bits, and any implementation in which it is 32 will cause overflow. `long long` is at least 64, though, and it's officially part of C++11. There might then be a problem with speed if the processor is 32-bit and dealing a lot with 64-bit numbers, but I wouldn't know even close to how much of a difference that would make until I had times. –  chris Mar 2 '13 at 17:03
As `NPE` says, if `int` is 32 bits, then `i * j` will overflow and bad things (like crashes) can happen. Making it `long` will work if `long` has more bits, which for you and your compiler, it's possible `long` is 64 bits so that `i * j` no longer overflows. –  Cornstalks Mar 2 '13 at 17:05

In any reasonably modern C++, you will not get a null pointer back from new if the allocation fails unless you use a non-throwing new. That part of your code isn't going to work as you expect it to - you'll have to catch `std::bad_alloc` that might be emitted from the call to `new` instead.

You also want to declare your array indices as type `size_t`.

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Would you recommend any learning materials about this? I'm totally new to this language and havent yet been exposed to memory management. –  David Williams Mar 2 '13 at 17:07
@DavidWilliams, A good book is always a good start. Keep in mind that modern C++ is not about memory management so much as RAII, where you don't have to manage it. –  chris Mar 2 '13 at 17:10