Any approach should give you roughly same number. It is always a good idea to allocate the heap using
-X..x for all generations. You can then guarantee and also do ps to see what parameters were passed and hence being used.
For actual memory usages, you can roughly compare VIRT (allocated and shared) and RES (actual used) compare against the jstat values as well:
For Java 8, see jstat for these values actually mean. Assuming you run a simple class with no mmap or file processing.
$ jstat -gccapacity 32277
NGCMN NGCMX NGC S0C S1C EC OGCMN OGCMX OGC OC MCMN MCMX MC CCSMN CCSMX CCSC YGC FGC
215040.0 3433472.0 73728.0 512.0 512.0 67072.0 430080.0 6867968.0 392704.0 392704.0 0.0 1083392.0 39680.0 0.0 1048576.0 4864.0 7225 2
$ jstat -gcutil 32277
S0 S1 E O M CCS YGC YGCT FGC FGCT GCT
6.25 0.00 7.96 18.21 98.01 95.29 7228 30.859 2 0.173 31.032
NGCMX + S0C + S1C + EC + OGCMX + MCMX + CCSMX
3433472 + 512 + 512 + 67072 + 6867968 + 1083392 + 1048576 = 12 GB
(roughly close and below to VIRT memory)
215040 + 512 + 512 + 67072 + 430080 + 39680 + 4864 = ~ 1GB
(roughly close to RES memory)
"Don't quote me on this" but VIRT mem is roughly close to or more than Max memory allocated but as long as memory being used is free/available in physical memory, JVM does not throw memory exception. In fact, max memory is not even checked against physical memory on JVM startup even with swap off on OS. A better explanation of what Virtual memory really used by a Java process is discussed here.