545 lines
13 KiB
Lua
545 lines
13 KiB
Lua
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--[[
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LUA MODULE
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bit.numberlua - Bitwise operations implemented in pure Lua as numbers,
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with Lua 5.2 'bit32' and (LuaJIT) LuaBitOp 'bit' compatibility interfaces.
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SYNOPSIS
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local bit = require 'bit.numberlua'
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print(bit.band(0xff00ff00, 0x00ff00ff)) --> 0xffffffff
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-- Interface providing strong Lua 5.2 'bit32' compatibility
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local bit32 = require 'bit.numberlua'.bit32
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assert(bit32.band(-1) == 0xffffffff)
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-- Interface providing strong (LuaJIT) LuaBitOp 'bit' compatibility
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local bit = require 'bit.numberlua'.bit
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assert(bit.tobit(0xffffffff) == -1)
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DESCRIPTION
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This library implements bitwise operations entirely in Lua.
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This module is typically intended if for some reasons you don't want
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to or cannot install a popular C based bit library like BitOp 'bit' [1]
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(which comes pre-installed with LuaJIT) or 'bit32' (which comes
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pre-installed with Lua 5.2) but want a similar interface.
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This modules represents bit arrays as non-negative Lua numbers. [1]
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It can represent 32-bit bit arrays when Lua is compiled
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with lua_Number as double-precision IEEE 754 floating point.
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The module is nearly the most efficient it can be but may be a few times
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slower than the C based bit libraries and is orders or magnitude
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slower than LuaJIT bit operations, which compile to native code. Therefore,
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this library is inferior in performane to the other modules.
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The `xor` function in this module is based partly on Roberto Ierusalimschy's
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post in http://lua-users.org/lists/lua-l/2002-09/msg00134.html .
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The included BIT.bit32 and BIT.bit sublibraries aims to provide 100%
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compatibility with the Lua 5.2 "bit32" and (LuaJIT) LuaBitOp "bit" library.
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This compatbility is at the cost of some efficiency since inputted
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numbers are normalized and more general forms (e.g. multi-argument
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bitwise operators) are supported.
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STATUS
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WARNING: Not all corner cases have been tested and documented.
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Some attempt was made to make these similar to the Lua 5.2 [2]
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and LuaJit BitOp [3] libraries, but this is not fully tested and there
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are currently some differences. Addressing these differences may
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be improved in the future but it is not yet fully determined how to
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resolve these differences.
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The BIT.bit32 library passes the Lua 5.2 test suite (bitwise.lua)
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http://www.lua.org/tests/5.2/ . The BIT.bit library passes the LuaBitOp
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test suite (bittest.lua). However, these have not been tested on
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platforms with Lua compiled with 32-bit integer numbers.
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API
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BIT.tobit(x) --> z
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Similar to function in BitOp.
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BIT.tohex(x, n)
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Similar to function in BitOp.
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BIT.band(x, y) --> z
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Similar to function in Lua 5.2 and BitOp but requires two arguments.
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BIT.bor(x, y) --> z
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Similar to function in Lua 5.2 and BitOp but requires two arguments.
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BIT.bxor(x, y) --> z
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Similar to function in Lua 5.2 and BitOp but requires two arguments.
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BIT.bnot(x) --> z
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Similar to function in Lua 5.2 and BitOp.
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BIT.lshift(x, disp) --> z
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Similar to function in Lua 5.2 (warning: BitOp uses unsigned lower 5 bits of shift),
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BIT.rshift(x, disp) --> z
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Similar to function in Lua 5.2 (warning: BitOp uses unsigned lower 5 bits of shift),
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BIT.extract(x, field [, width]) --> z
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Similar to function in Lua 5.2.
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BIT.replace(x, v, field, width) --> z
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Similar to function in Lua 5.2.
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BIT.bswap(x) --> z
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Similar to function in Lua 5.2.
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BIT.rrotate(x, disp) --> z
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BIT.ror(x, disp) --> z
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Similar to function in Lua 5.2 and BitOp.
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BIT.lrotate(x, disp) --> z
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BIT.rol(x, disp) --> z
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Similar to function in Lua 5.2 and BitOp.
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BIT.arshift
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Similar to function in Lua 5.2 and BitOp.
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BIT.btest
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Similar to function in Lua 5.2 with requires two arguments.
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BIT.bit32
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This table contains functions that aim to provide 100% compatibility
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with the Lua 5.2 "bit32" library.
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bit32.arshift (x, disp) --> z
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bit32.band (...) --> z
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bit32.bnot (x) --> z
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bit32.bor (...) --> z
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bit32.btest (...) --> true | false
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bit32.bxor (...) --> z
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bit32.extract (x, field [, width]) --> z
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bit32.replace (x, v, field [, width]) --> z
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bit32.lrotate (x, disp) --> z
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bit32.lshift (x, disp) --> z
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bit32.rrotate (x, disp) --> z
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bit32.rshift (x, disp) --> z
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BIT.bit
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This table contains functions that aim to provide 100% compatibility
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with the LuaBitOp "bit" library (from LuaJIT).
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bit.tobit(x) --> y
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bit.tohex(x [,n]) --> y
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bit.bnot(x) --> y
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bit.bor(x1 [,x2...]) --> y
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bit.band(x1 [,x2...]) --> y
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bit.bxor(x1 [,x2...]) --> y
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bit.lshift(x, n) --> y
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bit.rshift(x, n) --> y
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bit.arshift(x, n) --> y
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bit.rol(x, n) --> y
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bit.ror(x, n) --> y
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bit.bswap(x) --> y
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DEPENDENCIES
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None (other than Lua 5.1 or 5.2).
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DOWNLOAD/INSTALLATION
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If using LuaRocks:
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luarocks install lua-bit-numberlua
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Otherwise, download <https://github.com/davidm/lua-bit-numberlua/zipball/master>.
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Alternately, if using git:
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git clone git://github.com/davidm/lua-bit-numberlua.git
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cd lua-bit-numberlua
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Optionally unpack:
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./util.mk
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or unpack and install in LuaRocks:
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./util.mk install
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REFERENCES
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[1] http://lua-users.org/wiki/FloatingPoint
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[2] http://www.lua.org/manual/5.2/
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[3] http://bitop.luajit.org/
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LICENSE
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(c) 2008-2011 David Manura. Licensed under the same terms as Lua (MIT).
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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(end license)
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--]]
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local M = {_TYPE='module', _NAME='bit.numberlua', _VERSION='0.3.1.20120131'}
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local floor = math.floor
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local MOD = 2^32
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local MODM = MOD-1
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local function memoize(f)
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local mt = {}
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local t = setmetatable({}, mt)
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function mt:__index(k)
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local v = f(k); t[k] = v
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return v
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end
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return t
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end
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local function make_bitop_uncached(t, m)
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local function bitop(a, b)
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local res,p = 0,1
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while a ~= 0 and b ~= 0 do
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local am, bm = a%m, b%m
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res = res + t[am][bm]*p
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a = (a - am) / m
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b = (b - bm) / m
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p = p*m
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end
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res = res + (a+b)*p
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return res
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end
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return bitop
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end
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local function make_bitop(t)
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local op1 = make_bitop_uncached(t,2^1)
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local op2 = memoize(function(a)
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return memoize(function(b)
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return op1(a, b)
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end)
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end)
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return make_bitop_uncached(op2, 2^(t.n or 1))
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end
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-- ok? probably not if running on a 32-bit int Lua number type platform
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function M.tobit(x)
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return x % 2^32
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end
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M.bxor = make_bitop {[0]={[0]=0,[1]=1},[1]={[0]=1,[1]=0}, n=4}
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local bxor = M.bxor
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function M.bnot(a) return MODM - a end
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local bnot = M.bnot
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function M.band(a,b) return ((a+b) - bxor(a,b))/2 end
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local band = M.band
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function M.bor(a,b) return MODM - band(MODM - a, MODM - b) end
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local bor = M.bor
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local lshift, rshift -- forward declare
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function M.rshift(a,disp) -- Lua5.2 insipred
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if disp < 0 then return lshift(a,-disp) end
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return floor(a % 2^32 / 2^disp)
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end
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rshift = M.rshift
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function M.lshift(a,disp) -- Lua5.2 inspired
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if disp < 0 then return rshift(a,-disp) end
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return (a * 2^disp) % 2^32
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end
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lshift = M.lshift
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function M.tohex(x, n) -- BitOp style
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n = n or 8
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local up
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if n <= 0 then
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if n == 0 then return '' end
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up = true
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n = - n
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end
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x = band(x, 16^n-1)
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return ('%0'..n..(up and 'X' or 'x')):format(x)
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end
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local tohex = M.tohex
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function M.extract(n, field, width) -- Lua5.2 inspired
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width = width or 1
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return band(rshift(n, field), 2^width-1)
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end
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local extract = M.extract
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function M.replace(n, v, field, width) -- Lua5.2 inspired
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width = width or 1
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local mask1 = 2^width-1
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v = band(v, mask1) -- required by spec?
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local mask = bnot(lshift(mask1, field))
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return band(n, mask) + lshift(v, field)
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end
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local replace = M.replace
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function M.bswap(x) -- BitOp style
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local a = band(x, 0xff); x = rshift(x, 8)
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local b = band(x, 0xff); x = rshift(x, 8)
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local c = band(x, 0xff); x = rshift(x, 8)
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local d = band(x, 0xff)
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return lshift(lshift(lshift(a, 8) + b, 8) + c, 8) + d
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end
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local bswap = M.bswap
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function M.rrotate(x, disp) -- Lua5.2 inspired
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disp = disp % 32
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local low = band(x, 2^disp-1)
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return rshift(x, disp) + lshift(low, 32-disp)
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end
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local rrotate = M.rrotate
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function M.lrotate(x, disp) -- Lua5.2 inspired
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return rrotate(x, -disp)
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end
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local lrotate = M.lrotate
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M.rol = M.lrotate -- LuaOp inspired
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M.ror = M.rrotate -- LuaOp insipred
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function M.arshift(x, disp) -- Lua5.2 inspired
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local z = rshift(x, disp)
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if x >= 0x80000000 then z = z + lshift(2^disp-1, 32-disp) end
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return z
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end
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local arshift = M.arshift
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function M.btest(x, y) -- Lua5.2 inspired
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return band(x, y) ~= 0
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end
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--
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-- Start Lua 5.2 "bit32" compat section.
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--
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M.bit32 = {} -- Lua 5.2 'bit32' compatibility
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local function bit32_bnot(x)
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return (-1 - x) % MOD
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end
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M.bit32.bnot = bit32_bnot
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local function bit32_bxor(a, b, c, ...)
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local z
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if b then
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a = a % MOD
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b = b % MOD
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z = bxor(a, b)
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if c then
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z = bit32_bxor(z, c, ...)
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end
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return z
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elseif a then
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return a % MOD
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else
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return 0
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end
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end
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M.bit32.bxor = bit32_bxor
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local function bit32_band(a, b, c, ...)
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local z
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if b then
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a = a % MOD
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b = b % MOD
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z = ((a+b) - bxor(a,b)) / 2
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if c then
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z = bit32_band(z, c, ...)
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end
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return z
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elseif a then
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return a % MOD
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else
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return MODM
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end
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end
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M.bit32.band = bit32_band
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local function bit32_bor(a, b, c, ...)
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local z
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if b then
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a = a % MOD
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b = b % MOD
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z = MODM - band(MODM - a, MODM - b)
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if c then
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z = bit32_bor(z, c, ...)
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end
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return z
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elseif a then
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return a % MOD
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else
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return 0
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end
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end
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M.bit32.bor = bit32_bor
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function M.bit32.btest(...)
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return bit32_band(...) ~= 0
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end
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function M.bit32.lrotate(x, disp)
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return lrotate(x % MOD, disp)
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end
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function M.bit32.rrotate(x, disp)
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return rrotate(x % MOD, disp)
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end
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function M.bit32.lshift(x,disp)
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if disp > 31 or disp < -31 then return 0 end
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return lshift(x % MOD, disp)
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end
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function M.bit32.rshift(x,disp)
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if disp > 31 or disp < -31 then return 0 end
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return rshift(x % MOD, disp)
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end
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function M.bit32.arshift(x,disp)
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x = x % MOD
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if disp >= 0 then
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if disp > 31 then
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return (x >= 0x80000000) and MODM or 0
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else
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local z = rshift(x, disp)
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if x >= 0x80000000 then z = z + lshift(2^disp-1, 32-disp) end
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return z
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end
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else
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return lshift(x, -disp)
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end
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end
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||
|
|
||
|
function M.bit32.extract(x, field, ...)
|
||
|
local width = ... or 1
|
||
|
if field < 0 or field > 31 or width < 0 or field+width > 32 then error 'out of range' end
|
||
|
x = x % MOD
|
||
|
return extract(x, field, ...)
|
||
|
end
|
||
|
|
||
|
function M.bit32.replace(x, v, field, ...)
|
||
|
local width = ... or 1
|
||
|
if field < 0 or field > 31 or width < 0 or field+width > 32 then error 'out of range' end
|
||
|
x = x % MOD
|
||
|
v = v % MOD
|
||
|
return replace(x, v, field, ...)
|
||
|
end
|
||
|
|
||
|
|
||
|
--
|
||
|
-- Start LuaBitOp "bit" compat section.
|
||
|
--
|
||
|
|
||
|
M.bit = {} -- LuaBitOp "bit" compatibility
|
||
|
|
||
|
function M.bit.tobit(x)
|
||
|
x = x % MOD
|
||
|
if x >= 0x80000000 then x = x - MOD end
|
||
|
return x
|
||
|
end
|
||
|
local bit_tobit = M.bit.tobit
|
||
|
|
||
|
function M.bit.tohex(x, ...)
|
||
|
return tohex(x % MOD, ...)
|
||
|
end
|
||
|
|
||
|
function M.bit.bnot(x)
|
||
|
return bit_tobit(bnot(x % MOD))
|
||
|
end
|
||
|
|
||
|
local function bit_bor(a, b, c, ...)
|
||
|
if c then
|
||
|
return bit_bor(bit_bor(a, b), c, ...)
|
||
|
elseif b then
|
||
|
return bit_tobit(bor(a % MOD, b % MOD))
|
||
|
else
|
||
|
return bit_tobit(a)
|
||
|
end
|
||
|
end
|
||
|
M.bit.bor = bit_bor
|
||
|
|
||
|
local function bit_band(a, b, c, ...)
|
||
|
if c then
|
||
|
return bit_band(bit_band(a, b), c, ...)
|
||
|
elseif b then
|
||
|
return bit_tobit(band(a % MOD, b % MOD))
|
||
|
else
|
||
|
return bit_tobit(a)
|
||
|
end
|
||
|
end
|
||
|
M.bit.band = bit_band
|
||
|
|
||
|
local function bit_bxor(a, b, c, ...)
|
||
|
if c then
|
||
|
return bit_bxor(bit_bxor(a, b), c, ...)
|
||
|
elseif b then
|
||
|
return bit_tobit(bxor(a % MOD, b % MOD))
|
||
|
else
|
||
|
return bit_tobit(a)
|
||
|
end
|
||
|
end
|
||
|
M.bit.bxor = bit_bxor
|
||
|
|
||
|
function M.bit.lshift(x, n)
|
||
|
return bit_tobit(lshift(x % MOD, n % 32))
|
||
|
end
|
||
|
|
||
|
function M.bit.rshift(x, n)
|
||
|
return bit_tobit(rshift(x % MOD, n % 32))
|
||
|
end
|
||
|
|
||
|
function M.bit.arshift(x, n)
|
||
|
return bit_tobit(arshift(x % MOD, n % 32))
|
||
|
end
|
||
|
|
||
|
function M.bit.rol(x, n)
|
||
|
return bit_tobit(lrotate(x % MOD, n % 32))
|
||
|
end
|
||
|
|
||
|
function M.bit.ror(x, n)
|
||
|
return bit_tobit(rrotate(x % MOD, n % 32))
|
||
|
end
|
||
|
|
||
|
function M.bit.bswap(x)
|
||
|
return bit_tobit(bswap(x % MOD))
|
||
|
end
|
||
|
|
||
|
return M
|