Possible Duplicate:
C++ Which is faster: Stack allocation or Heap allocation
I was testing the following code with and without TEST being defined:
#include <cstdlib> // atoi
int main( int argc, char *argv[ ] ) {
int times = 100000000;
switch ( argc ) {
case 2:
times = atoi( argv[1] );
} // switch
volatile int *arr = 0;
delete arr;
for ( int i = 0; i < times; i += 1 ) {
#ifdef TEST
arr = new int[10];
arr[0] = 5;
delete [ ] arr;
#else
volatile int arr[10];
arr[0] = 5;
#endif
}
}
The following is my time output:
$ time ./q1test // variable TEST defined
real 0m7.319s
user 0m7.289s
sys 0m0.007s
$ time ./q1notest // variable TEST not defined
real 0m0.281s
user 0m0.276s
sys 0m0.003s
$ time ./q1dynopt // variable TEST defined with compiler optimization
real 0m7.137s
user 0m7.116s
sys 0m0.006s
$ time ./q1nodynopt // variable TEST not defined with compiler optimization
real 0m0.053s
user 0m0.048s
sys 0m0.003s
I would like to know why there the first case is so much slower than the second? Also, why doesn't compiler optimization affect the first case?
I know its due to stack allocation vs heap allocation, but I would like to understand it in more depth if possible.
std::vector
instead of manually memory management.new
/delete
pair, it's not exactly "slow".