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Storage segment From Wikipedia, the free encyclopedia
In computing, a data segment (often denoted .data) is a portion of an object file or the corresponding address space of a program that contains initialized static variables, that is, global variables and static local variables. The size of this segment is determined by the size of the values in the program's source code, and does not change at run time.
The data segment is read/write, since the values of variables can be altered at run time. This is in contrast to the read-only data segment (rodata segment or .rodata), which contains static constants rather than variables; it also contrasts to the code segment, also known as the text segment, which is read-only on many architectures. Uninitialized data, both variables and constants, is instead in the BSS segment.
Historically, to be able to support memory address spaces larger than the native size of the internal address register would allow, early CPUs implemented a system of segmentation whereby they would store a small set of indexes to use as offsets to certain areas. The Intel 8086 family of CPUs provided four segments: the code segment, the data segment, the stack segment and the extra segment. Each segment was placed at a specific location in memory by the software being executed and all instructions that operated on the data within those segments were performed relative to the start of that segment. This allowed a 16-bit address register, which would normally be able to access 64 KB of memory space, to access 1 MB of memory space.
This segmenting of the memory space into discrete blocks with specific tasks carried over into the programming languages of the day and the concept is still widely in use within modern programming languages.
A computer program memory can be largely categorized into two sections: read-only and read/write. This distinction grew from early systems holding their main program in read-only memory such as Mask ROM, EPROM, PROM or EEPROM. As systems became more complex and programs were loaded from other media into RAM instead of executing from ROM, the idea that some portions of the program's memory should not be modified was retained. These became the .text and .rodata segments of the program, and the remainder which could be written to divided into a number of other segments for specific tasks.
The code segment, also known as text segment, contains executable code and is generally read-only and fixed size.
The data segment contains initialized static variables, i.e. global variables and local static variables which have a defined value and can be modified. Examples in C include:
int i = 3;
char a[] = "Hello World";
static int b = 2023; // Initialized static global variable
void foo (void) {
static int c = 2023; // Initialized static local variable
}
The BSS segment contains uninitialized static data, both variables and constants, i.e. global variables and local static variables that are initialized to zero or do not have explicit initialization in source code. Examples in C include:
static int i;
static char a[12];
The heap segment contains dynamically allocated memory, commonly begins at the end of the BSS segment and grows to larger addresses from there. It is managed by malloc, calloc, realloc, and free, which may use the brk and sbrk system calls to adjust its size (note that the use of brk/sbrk and a single heap segment is not required to fulfill the contract of malloc/calloc/realloc/free; they may also be implemented using mmap/munmap to reserve/unreserve potentially non-contiguous regions of virtual memory into the process' virtual address space). The heap segment is shared by all threads, shared libraries, and dynamically loaded modules in a process.
The stack segment contains the call stack, a LIFO structure, typically located in the higher parts of memory. A "stack pointer" register tracks the top of the stack; it is adjusted each time a value is "pushed" onto the stack. The set of values pushed for one function call is termed a "stack frame". A stack frame consists at minimum of a return address. Automatic variables are also allocated on the stack.
The stack segment traditionally adjoined the heap segment and they grew towards each other; when the stack pointer met the heap pointer, free memory was exhausted. With large address spaces and virtual memory techniques they tend to be placed more freely, but they still typically grow in a converging direction. On the standard PC x86 architecture the stack grows toward address zero, meaning that more recent items, deeper in the call chain, are at numerically lower addresses and closer to the heap. On some other architectures it grows the opposite direction.
Some interpreted languages offer a similar facility to the data segment, notably Perl[1] and Ruby.[2] In these languages, including the line __DATA__
(Perl) or __END__
(Ruby, old Perl) marks the end of the code segment and the start of the data segment. Only the contents prior to this line are executed, and the contents of the source file after this line are available as a file object: PACKAGE::DATA
in Perl (e.g., main::DATA
) and DATA
in Ruby. This can be considered a form of here document (a file literal).
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