# bit Module Bit manipulation support, on 32bit integers. ## bit.arshift() Arithmetic right shift a number equivalent to `value >> shift` in C. ####Syntax `bit.arshift(value, shift)` ####Parameters - `value` the value to shift - `shift` positions to shift ####Returns the number shifted right (arithmetically) ## bit.band() Bitwise AND, equivalent to `val1 & val2 & ... & valn` in C. ####Syntax `bit.band(val1, val2 [, ... valn])` ####Parameters - `val1` first AND argument - `val2` second AND argument - `...valn` ...nth AND argument ####Returns the bitwise AND of all the arguments (number) ## bit.bit() Generate a number with a 1 bit (used for mask generation). Equivalent to `1 << position` in C. ####Syntax `bit.bit(position)` ####Parameters `position` position of the bit that will be set to 1 ####Returns a number with only one 1 bit at position (the rest are set to 0) ## bit.bnot() Bitwise negation, equivalent to `~value in C. ####Syntax `bit.bnot(value)` ####Parameters `value` the number to negate ####Returns the bitwise negated value of the number ## bit.bor() Bitwise OR, equivalent to `val1 | val2 | ... | valn` in C. ####Syntax `bit.bor(val1, val2 [, ... valn])` ####Parameters - `val1` first OR argument. - `val2` second OR argument. - `...valn` ...nth OR argument ####Returns the bitwise OR of all the arguments (number) ## bit.bxor() Bitwise XOR, equivalent to `val1 ^ val2 ^ ... ^ valn` in C. ####Syntax `bit.bxor(val1, val2 [, ... valn])` ####Parameters - `val1` first XOR argument - `val2` second XOR argument - `...valn` ...nth XOR argument ####Returns the bitwise XOR of all the arguments (number) ## bit.clear() Clear bits in a number. ####Syntax `bit.clear(value, pos1 [, ... posn])` ####Parameters - `value` the base number - `pos1` position of the first bit to clear - `...posn` position of thet nth bit to clear ####Returns the number with the bit(s) cleared in the given position(s) ## bit.isclear() Test if a given bit is cleared. ####Syntax `bit.isclear(value, position)` ####Parameters - `value` the value to test - `position` bit position to test ####Returns true if the bit at the given position is 0, false othewise ## bit.isset() Test if a given bit is set. ####Syntax `bit.isset(value, position)` ####Parameters - `value` the value to test - `position` bit position to test ####Returns true if the bit at the given position is 1, false otherwise ## bit.lshift() Left-shift a number, equivalent to `value << shift` in C. ####Syntax `bit.lshift(value, shift)` ####Parameters - `value` the value to shift - `shift` positions to shift ####Returns the number shifted left ## bit.rshift() Logical right shift a number, equivalent to `( unsigned )value >> shift` in C. ####Syntax `bit.rshift(value, shift)` ####Parameters - `value` the value to shift. - `shift` positions to shift. ####Returns the number shifted right (logically) ## bit.set() Set bits in a number. ####Syntax `bit.set(value, pos1 [, ... posn ])` ####Parameters - `value` the base number. - `pos1` position of the first bit to set. - `...posn` position of the nth bit to set. ####Returns the number with the bit(s) set in the given position(s)