1·Coercion By Bitwise Operators.
按位运算符强制。
2·The bitwise operator for all except is ( ~ ).
这个位操作符就是(~)。
3·Performs a bitwise NOT (negation) on an expression.
对一个表达式执行按位“取非”(求非)运算。
4·Bitwise logic is complex for ordinary programmers and analysts.
按位逻辑对于普通程序员和分析人员非常复杂。
5·However, bitwise operators and shift operators never cause overflow.
然而,按位运算符和移位运算符永远不会导致溢出。
6·The conditional operator has lower precedence than bitwise operators.
条件运算符的优先级比按位运算符的优先级低。
7·This allows you to perform bitwise logical and, or, XOR, and NOT comparisons.
这样便可以执行逐位的逻辑AND、OR、XOR和NOT比较。
8·For integral types, & computes the logical bitwise AND of its operands.
对于整型,& 计算操作数的逻辑按位“与”。
9·The first is to use bitwise operations instead of pure mathematical operations.
首先可以用位运算符替代纯数学操作。
10·You may perform the usual C language arithmetic, logical, and bitwise operations.
可以执行 C 语言中常见的算术、逻辑和位操作。
1·This allows you to perform bitwise logical and, or, XOR, and NOT comparisons.
这样便可以执行逐位的逻辑AND、OR、XOR和NOT比较。
2·The 1-bit signal values are bitwise logically combined (e. g. , XORed) with a 1-bit quantized carrier demodulation template to produce demodulated 1-bit signal values.
将1位信号值与1位量化载 波解调模板逐位进行逻辑组合(例如,异或),以产生解调的1位信 号值。
3·The demodulated 1-bit signal values are bitwise logically combined (e. g., XORed) with the positioning system modulation code to produce a plurality of 1-bit correlation values.
将解调的1位信号值与定位系统调制码逐位进行逻辑组合(例如异或),以产生多个1位相关值。