A good way to find out why there are any differences is to check the disassembly. Here are the results I got on my machine with Visual Studio 2012.
With optimization flags, both functions generate the same code:
009D1270 57 push edi
009D1271 FF 15 D4 30 9D 00 call dword ptr ds:[9D30D4h]
009D1277 8B F8 mov edi,eax
009D1279 FF 15 D4 30 9D 00 call dword ptr ds:[9D30D4h]
009D127F 8B 0D 48 30 9D 00 mov ecx,dword ptr ds:[9D3048h]
009D1285 2B C7 sub eax,edi
009D1287 50 push eax
009D1288 E8 A3 04 00 00 call std::operator<<<std::char_traits<char> > (09D1730h)
009D128D 8B C8 mov ecx,eax
009D128F FF 15 2C 30 9D 00 call dword ptr ds:[9D302Ch]
009D1295 33 C0 xor eax,eax
009D1297 5F pop edi
009D1298 C3 ret
This is basically equivalent to:
int main ()
{
clock_t start, stop ;
start = clock () ;
stop = clock () ;
cout << "time: " << stop - start ;
return 0 ;
}
Without optimization flags, you will probably get different results.
function (no optimizations):
00114890 55 push ebp
00114891 8B EC mov ebp,esp
00114893 81 EC C0 00 00 00 sub esp,0C0h
00114899 53 push ebx
0011489A 56 push esi
0011489B 57 push edi
0011489C 8D BD 40 FF FF FF lea edi,[ebp-0C0h]
001148A2 B9 30 00 00 00 mov ecx,30h
001148A7 B8 CC CC CC CC mov eax,0CCCCCCCCh
001148AC F3 AB rep stos dword ptr es:[edi]
001148AE 8B 45 08 mov eax,dword ptr [ptr]
001148B1 8B 08 mov ecx,dword ptr [eax]
001148B3 6B C9 05 imul ecx,ecx,5
001148B6 8B 55 08 mov edx,dword ptr [ptr]
001148B9 89 0A mov dword ptr [edx],ecx
001148BB 5F pop edi
001148BC 5E pop esi
001148BD 5B pop ebx
001148BE 8B E5 mov esp,ebp
001148C0 5D pop ebp
001148C1 C3 ret
function2 (no optimizations)
00FF4850 55 push ebp
00FF4851 8B EC mov ebp,esp
00FF4853 81 EC C0 00 00 00 sub esp,0C0h
00FF4859 53 push ebx
00FF485A 56 push esi
00FF485B 57 push edi
00FF485C 8D BD 40 FF FF FF lea edi,[ebp-0C0h]
00FF4862 B9 30 00 00 00 mov ecx,30h
00FF4867 B8 CC CC CC CC mov eax,0CCCCCCCCh
00FF486C F3 AB rep stos dword ptr es:[edi]
00FF486E 8B 45 08 mov eax,dword ptr [val]
00FF4871 6B C0 05 imul eax,eax,5
00FF4874 89 45 08 mov dword ptr [val],eax
00FF4877 5F pop edi
00FF4878 5E pop esi
00FF4879 5B pop ebx
00FF487A 8B E5 mov esp,ebp
00FF487C 5D pop ebp
00FF487D C3 ret
Why is pass by value faster (in the no optimization case)?
Well, function() has two extra mov operations. Let's take a look at the first extra mov operation:
001148AE 8B 45 08 mov eax,dword ptr [ptr]
001148B1 8B 08 mov ecx,dword ptr [eax]
001148B3 6B C9 05 imul ecx,ecx,5
Here we are dereferencing the pointer. In function2 (), we already have the value, so we avoid this step. We first move the address of the pointer into register eax. Then we move the value of the pointer into register ecx. Finally, we multiply the value by five.
Let's look at the second extra mov operation:
001148B3 6B C9 05 imul ecx,ecx,5
001148B6 8B 55 08 mov edx,dword ptr [ptr]
001148B9 89 0A mov dword ptr [edx],ecx
Now we are moving backwards. We have just finished multiplying the value by 5, and we need to place the value back into the memory address.
Because function2 () does not have to deal with referencing and dereferencing a pointer, it gets to skip these two extra mov operations.
