It depends upon the system and the compiler. On Linux, with GCC 4.7.2 and compiling with gcc -O2 vishaid.c -o vishaid the program returns immediately, and the compiler is optimizing all the call to isPrime1 by removing them (I checked the generated assembler code with gcc -O2 -S -fverbose-asm, then main does not even call isPrime1). And GCC is right: since isPrime1 has no side-effect and its result is not used, its call can be removed. Then the for loop has an empty body, so can also be optimized.
The lesson to learn is that when benchmarking optimized binaries, you better have some real side-effect in your code.
Also, arithmetic tells us that some i is prime if it has no divisors less than its square root. So better code:
int isPrime1(long t) {
long i;
double r = sqrt((double)t);
long m = (long)r;
if(t==1) return 0;
if(t%2==0) return 0;
for(i=3;i <= m;i +=2)
if(t%i==0) return 0;
return 1;
}
On my system (x86-64/Debian/Sid with i7 3770K Intel processor, the core running that program is at 3.5GHz) long-s are 64 bits. So I coded
int main ()
{
long i = 0;
long cnt = 0;
time_t s, e;
s = time (NULL);
for (i = 3; i < 2147483647; i++)
{
if (isPrime1 (i) && (++cnt % 4096) == 0) {
printf ("#%ld: %ld\n", cnt, i);
fflush (NULL);
}
}
e = time (NULL);
printf ("\n\t Time : %ld secs\n", e - s);
return 0;
}
and after about 4 minutes it was still printing a lot of lines, including
#6819840: 119566439
#6823936: 119642749
#6828032: 119719177
#6832128: 119795597
I'm guessing it would need several hours to complete. After 30 minutes it is still spitting (slowly)
#25698304: 486778811
#25702400: 486862511
#25706496: 486944147
#25710592: 487026971
Actually, the program needed 4 hours and 16 minutes to complete. Last outputs are
#105086976: 2147139749
#105091072: 2147227463
#105095168: 2147315671
#105099264: 2147402489
Time : 15387 secs
BTW, this program is still really inefficient: The primes program /usr/games/primes from bsdgames package is answering much quicker
% time /usr/games/primes 1 2147483647 | tail
2147483423
2147483477
2147483489
2147483497
2147483543
2147483549
2147483563
2147483579
2147483587
2147483629
/usr/games/primes 1 2147483647
10.96s user 0.26s system 99% cpu 11.257 total
and it has still printed 105097564 lines (most being skipped by tail)
If you are interested in prime number generation, read several math books (it is still a research subject if you are interested in efficiency; you still can get your PhD on that subject.). Start with the sieve of erasthothenes and primality test pages on Wikipedia.
Most importantly, compile first your program with debugging information and all warnings (i.e. gcc -Wall -g on Linux) and learn to use your debugger (i.e. gdb on Linux). You could then interrupt your debugged program (with Ctrl-C under gdb, then let it continue with the cont command to gdb) after about a minute and two, then observe that the i counter in main is increasing slowly. Perhaps also ask for profiling information (with -pg option to gcc then use gprof). And when coding complex arithmetic things it is well worth to read good math books about them (and primality test is a very complex subject, central to most cryptographic algorithms).
for(i=3; i<100; i++)?