int main() { volatile int stride = MB_X_REF * MB_SIZE; BYTE* address1 = (BYTE*)malloc( MB_X_REF * MB_SIZE * MB_Y_REF * MB_SIZE * sizeof( BYTE ) ); BYTE* address2 = (BYTE*)malloc( MB_X_REF * MB_SIZE * MB_Y_REF * MB_SIZE * sizeof( BYTE ) ); UINT* orio = (UINT*)malloc( MB_X_REF * MB_SIZE * MB_Y_REF * MB_SIZE * sizeof( UINT ) ); UINT* newo = (UINT*)malloc( MB_X_REF * MB_SIZE * MB_Y_REF * MB_SIZE * sizeof( UINT ) ); memset( orio, 0, MB_X_REF * MB_SIZE * MB_Y_REF * MB_SIZE * sizeof( UINT ) ); memset( newo, 0, MB_X_REF * MB_SIZE * MB_Y_REF * MB_SIZE * sizeof( UINT ) ); for(int i=0;i<MB_X_REF * MB_SIZE * MB_Y_REF * MB_SIZE;i++) { address1[i] = i+1; address2[i] = i; } DoSpeedTest( address1, stride, address2, stride, orio, newo ); getch(); free( address1 ); free( address2 ); free( orio ); free( newo ); return 0; }
void main(void) { printf("Current implementations run out of memory before speed.\n"); return; peer1=RakNetworkFactory::GetRakPeerInterface(); peer2=RakNetworkFactory::GetRakPeerInterface(); peer1->SetMaximumIncomingConnections(1); peer2->SetMaximumIncomingConnections(1); //printf("This project is an automatic test of various sends of various sizes.\n"); //printf("I use it for performance profiling.\n"); //printf("Difficulty: Beginner\n\n"); printf("Testing UNRELIABLE with 100 byte messages.\n"); DoSpeedTest(UNRELIABLE, 100); printf("Testing UNRELIABLE with 400 byte messages.\n"); DoSpeedTest(UNRELIABLE, 400); printf("Testing RELIABLE with 100 byte messages.\n"); DoSpeedTest(RELIABLE, 100); printf("Testing RELIABLE with 400 byte messages.\n"); DoSpeedTest(RELIABLE, 400); printf("Testing RELIABLE_ORDERED with 100 byte messages.\n"); DoSpeedTest(RELIABLE_ORDERED, 100); printf("Testing RELIABLE_ORDERED with 400 byte messages.\n"); DoSpeedTest(RELIABLE_ORDERED, 400); // printf("Press any key to quit\n"); // getch(); RakNetworkFactory::DestroyRakPeerInterface(peer1); RakNetworkFactory::DestroyRakPeerInterface(peer2); }