Heap memory is divided between three spaces:
- Old Generation
- Survivor Space
- Eden Space
At start this object will live in the old generation and will remain here for a while.
By default, the virtual machine grows or shrinks the heap at each collection to try to keep the proportion of free space to live objects at each collection within a specific range. This target range is set as a percentage by the parameters -XX:MinHeapFreeRatio= and -XX:MaxHeapFreeRatio=, and the total size is bounded below by -Xms and above by -Xmx.
Default ratio in my jvm is 30/70 so max size of object in old generation is limited (with -Xmx1G) by 700Mb(btw, I'm getting the same exception when running with default jvm parameters).
However you could size generations using jvm options. For example you could
run your class with parameters
-Xmx1G -XX:NewRatio=10 and
new int[200 * 1000 * 1000]; will succeed.
From what I could say Java wasn't designed to hold large objects in memory. Typical usage of memory in application is graph of bunch of relatively small objects and typically you'll get OutOfMemoryError only if you run out of space in all of spaces.
Below are couple useful (and interesting to read) articles:
Ergonomics in the 5.0 Java[tm] Virtual Machine
Tuning Garbage Collection with the 5.0 Java[tm] Virtual Machine