The malloc function allocates a contiguous area of memory whose size, in bytes, is supplied as an argument. The space is not initialized. NOTE The malloc routines call the system routine LIB$VM_MALLOC. Because LIB$VM_MALLOC is designed as a general-purpose routine to allocate memory, it is called upon in a wide array of scenarios to allocate and reallocate blocks efficiently. The most common usage is the management of smaller blocks of memory, and the most important aspect of memory allocation under these circumstances is efficiency. LIB$VM_MALLOC makes use of its own free space to satisfy requests, once the heap storage is consumed by splitting large blocks and merging adjacent blocks. Memory can still become fragmented, leaving unused blocks. Once heap storage is consumed, LIB$VM_MALLOC manages its own free space and merged blocks to satisfy requests, but varying sizes of memory allocations can cause blocks to be left unused. Because LIB$VM_MALLOC cannot be made to satisfy all situations in the best possible manner, perform your own memory management if you have special memory usage needs. This assures the best use of memory for your particular application. The OpenVMS Programming Concepts Manual explains the several memory allocation routines that are available. They are grouped into three levels of hierarchy: 1. At the highest level are the RTL Heap Management Routines LIB$GET_VM and LIB$FREE_VM, which provide a mechanism for allocating and freeing blocks of memory of arbitrary size. Also at this level are the routines based on the concept of zones, such as LIB$CREATE_VM_ZONE, and so on. 2. At the next level are the RTL Page Management routines LIB$GET_VM_PAGE and LIB$FREE_VM_PAGE, which allocate a specified number of contiguous pages. 3. At the lowest level are the Memory Management System Services, such as $CRETVA and $EXPREG, that provide extensive control over address space allocation. At this level, you must manage the allocation precisely. The maximum amount of memory allocated at once is limited to 0xFFFFD000.