As I commented, a program can "legitimately" leak memory.
On most operating systems (notably Posix or Linux), the kernel will release all the memory used by a process after the process exits.
So if during its initialization, a program allocates some (heap) data -in limited quantity- and don't bother releasing it at all, it is a "legitimate" memory leak (and may real programs exhibit that behavior: e.g. the GCC compiler, or Firefox browser, or most X11 client libraries, etc...).
However, leaks which happen continuously during the normal operation of the program and which increase the memory consumption are frowned upon.
Also, I believe that it can be proven that static analysis of memory leaks is equivalent to the halting problem so there is no way to always detect it at compile time: either you'll get some false alarms, or some leaks will stay undetected.
At runtime, you could use valgrind to chase memory leaks.
Also, the liveness of some memory zone is a global property of the program. Read more about garbage collection and perhaps consider using Boehm's conservative GC.