Chapter 11. Bit Operations
To be or not to be, that is the question
This chapter discusses bit-oriented operations. A bit is the smallest unit of information. Normally, it is represented by the values 1 and 0. (Other representations include on/off, true/false, and yes/no.) Bit manipulations are used to control the machine at the lowest level. They allow the programmer to get under the hood of the machine. Many higher-level programs will never need bit operations. Low-level coding, like writing device drivers or pixel-level graphic programming, requires bit operations.
Eight bits together form a byte, represented by the C data type char.[13]
A byte might contain the following bits:
01100100
This bit structure can also be written as the hexadecimal number 0x64. (C uses the prefix “0x” to indicate a hexadecimal (base 16) number.) Hexadecimal is convenient for representing binary data because each hexadecimal digit represents 4 binary bits. Table 11-1 gives the hexadecimal-to-binary conversion:
Hexadecimal | Binary | Hexadecimal | Binary |
0 | 0000 | 8 | 1000 |
1 | 0001 | 9 | 1001 |
2 | 0010 | A | 1010 |
3 | 0011 | B | 1011 |
4 | 0100 | C | 1100 |
5 | 0101 | D | 1101 |
6 | 0110 | E | 1110 |
7 | 0111 | F | 1111 |
So the hexadecimal number 0xAF represents the binary number 10101111.
The printf format for
hexadecimal is %x; for octal the
format is %o. So:
int number = 0xAF;
printf("Number is %x %d %o\n", number, number, number);prints:
af 175 257
Many novice programmers get a number confused with its representation ...
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