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JVM Memory Management

JVM Memory Management
  • Whenever you execute a java program, a separate memory area is reserved for storing various parts of your application code which you roughly call JVM memory.
  • When a Java virtual machine runs a program, it needs memory to store many things, including bytecodes and other information it extracts from loaded class files, objects the program instantiates, parameters to methods, return values, local variables, and intermediate results of computations. The Java virtual machine organizes the memory it needs to execute a program into several runtime data areas.
  • Let’s look at the most basic categorization of various parts inside runtime memory.
  • Method area stores per-class structures such as the runtime constant pool; field and method data; the code for methods and constructors, including the special methods used in class, instance, and interface initialization.
  • The method area is created on the virtual machine startup. Although it is logically a part of the heap but it can or cannot be garbage collected, whereas we already read that garbage collection in heap is not optional; it’s mandatory. The method area may be of a fixed size or may be expanded as required by the computation and may be contracted if a larger method area becomes unnecessary. The memory for the method area does not need to be contiguous.
  • ( If memory in the method area cannot be made available to satisfy an allocation request, the Java Virtual Machine throws an OutOfMemoryError.)
  • Each of the JVM threads has a private stack created at the same time as that of the thread. The stack stores frames. A frame is used to store data and partial results and to perform dynamic linking, return values for methods, and dispatch exceptions.
  • It holds local variables and partial results and plays a part in the method invocation and return. Because this stack is never manipulated directly, except to push and pop frames, the frames may be heap allocated. Similar to the heap, the memory for this stack does not need to be contiguous.
  • This specification permits that stacks can be either of a fixed or dynamic size. If it is of a fixed size, the size of each stack may be chosen independently when that stack is created.
  • ( If the computation in a thread requires a larger Java Virtual Machine stack than is permitted, the Java Virtual Machine throws a StackOverflowError.)
  • ( If Java Virtual Machine stacks can be dynamically expanded, and expansion is attempted but insufficient memory can be made available to effect the expansion, or if insufficient memory can be made available to create the initial Java Virtual Machine stack for a new thread, the Java Virtual Machine throws an OutOfMemoryError.)
  • Native method stacks is called C stacks; it support native methods (methods written in a language other than the Java programming language), typically allocated per each thread when each thread is created. Java Virtual Machine implementations that cannot load native methods and that do not themselves rely on conventional stacks need not supply native method stacks.
  • The size of native method stacks can be either fixed or dynamic.
  • Each of the JVM threads has its own program counter (pc) register. At any point, each of the JVM threads is executing the code of a single method, namely the current method for that thread.
  • As the Java applications can contain some native code (for example, using native libraries), we have two different ways for native and non-native methods. If the method is not native (that is, a Java code), the PC register contains the address of the JVM instruction currently being executed. If the method is native, the value of the JVM’s PC register is undefined.
  • The Java Virtual Machine’s pc register is wide enough to hold a return address or a native pointer on the specific platform.