C Bit Fields
In addition to declarators for members of a structure or union, a structure declarator can also be a specified number of bits, called a 밷it field.?Its length is set off from the declarator for the field name by a colon. A bit field is interpreted as an integral type.
Syntax
struct-declarator :
declarator
type-specifier declarator opt : constant-expression
The constant-expression specifies the width of the field in bits. The type-specifier for the declarator must be unsigned int, signed int, or int, and the constant-expression must be a nonnegative integer value. If the value is zero, the declaration has no declarator. Arrays of bit fields, pointers to bit fields, and functions returning bit fields are not allowed. The optional declarator names the bit field. Bit fields can only be declared as part of a structure. The address-of operator (&) cannot be applied to bit-field components.
Unnamed bit fields cannot be referenced, and their contents at run time are unpredictable. They can be used as 밺ummy?fields, for alignment purposes. An unnamed bit field whose width is specified as 0 guarantees that storage for the member following it in the struct-declaration-list begins on an int boundary.
Bit fields must also be long enough to contain the bit pattern. For example, these two statements are not legal:
short a:17; /* Illegal! */
int long y:33; /* Illegal! */
This example defines a two-dimensional array of structures named screen.
struct
{
unsigned short icon : 8;
unsigned short color : 4;
unsigned short underline : 1;
unsigned short blink : 1;
} screen[25][80];
The array contains 2,000 elements. Each element is an individual structure containing four bit-field members: icon, color, underline, and blink. The size of each structure is two bytes.
Bit fields have the same semantics as the integer type. This means a bit field is used in expressions in exactly the same way as a variable of the same base type would be used, regardless of how many bits are in the bit field.
Microsoft Specific ?gt;
Bit fields defined as int are treated as signed. A Microsoft extension to the ANSI C standard allows char and long types (both signed and unsigned) for bit fields. Unnamed bit fields with base type long, short, or char (signed or unsigned) force alignment to a boundary appropriate to the base type.
Bit fields are allocated within an integer from least-significant to most-significant bit. In the following code
struct mybitfields
{
unsigned short a : 4;
unsigned short b : 5;
unsigned short c : 7;
} test;
void main( void );
{
test.a = 2;
test.b = 31;
test.c = 0;
}
the bits would be arranged as follows:
00000001 11110010
cccccccb bbbbaaaa
Since the 8086 family of processors stores the low byte of integer values before the high byte, the integer 0x01F2 above would be stored in physical memory as 0xF2 followed by 0x01.
END Microsoft Specific
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