raze-gles/polymer/eduke32/source/lunatic/bitar.lua


-- "Bit array" module based on LuaJIT's BitOp.

local ffi = require "ffi"
local bit = require "bit"

local error = error
local assert = assert
local type = type

local setmetatable=setmetatable


module(...)


-- Is bit i set in bit array ar?
function isset(ar, i)
    return bit.band(ar[bit.rshift(i, 5)], bit.lshift(1, i)) ~= 0
end

-- Set bit j in bit array ar.
function set0(ar, j)
    local jx = bit.rshift(j, 5)
    ar[jx] = bit.band(ar[jx], bit.rol(0xfffffffe, j))
end

-- Clear bit j in bit array ar.
function set1(ar, j)
    local jx = bit.rshift(j, 5)
    ar[jx] = bit.bor(ar[jx], bit.rol(0x00000001, j))
end

local ops = { isset=isset, set0=set0, set1=set1 }
local mt
mt = {
    __index=ops,

    -- set ops disguised as arithmetic ones...

    __mul = function(ar1, ar2)  -- set intersection
        assert(#ar1 == #ar2)
        local p = {}
        for i=0,#ar1 do
            p[i] = bit.band(ar1[i], ar2[i])
        end
        return setmetatable(p, mt)
    end,

    __add = function(ar1, ar2)  -- set union
        assert(#ar1 == #ar2)
        local p = {}
        for i=0,#ar1 do
            p[i] = bit.bor(ar1[i], ar2[i])
        end
        return setmetatable(p, mt)
    end,

    __sub = function(ar1, ar2)  -- set difference
        assert(#ar1 == #ar2)
        local p = {}
        for i=0,#ar1 do
            p[i] = bit.band(ar1[i], bit.bnot(ar2[i]))
        end
        return setmetatable(p, mt)
    end,

    -- serialization
    __tostring = function(ar)
        local maxidx=#ar
        local size=maxidx+1

        local hdr = "bitar.new('"
        local ofs = #hdr
        local totalstrlen = ofs+8*size+2
        local str = ffi.new("char [?]", totalstrlen)

        ffi.copy(str, hdr, ofs)

        for i=0,maxidx do
            -- 'a' is ASCII 97
            for nib=0,7 do
                str[ofs + 8*i + nib] = 97 + bit.band(bit.rshift(ar[i], 4*nib), 0x0000000f)
            end
        end

        ffi.copy(str+totalstrlen-2, "')", 2)

        return ffi.string(str, totalstrlen)
    end,
}

-- Create new bit array.
-- Returns a table p in which entries p[0] through p[floor((maxbidx+31)/32)]
-- are set to an initialization value: 0 if 0 has been passed, -1 if 1
-- has been passed.
-- Storage: 4 bits/bit + O(1)? (per 32 bits: 64 bits key, 64 bits value)
function new(maxbidx, initval)
    local p = {}

    if (type(maxbidx)=="string") then
        -- string containing hex digits (a..p) given, internal
        local lstr = maxbidx

        local numnibs = #lstr
        assert(numnibs%8 == 0)

        local size = numnibs/8
        local maxidx = size-1

        local str = ffi.new("char [?]", numnibs)
        ffi.copy(str, lstr, numnibs)

        for i=0,maxidx do
            p[i] = 0

            for nib=0,7 do
                local hexdig = str[8*i + nib]
                assert(hexdig >= 97 and hexdig < 97+16)
                p[i] = bit.bor(p[i], bit.lshift(hexdig-97, 4*nib))
            end
        end
    else
        if (type(maxbidx) ~= "number" or not (maxbidx >= 0)) then
            error("bad argument #1 to newarray (must be a nonnegative number)", 2)
        end

        if (initval ~= 0 and initval ~= 1) then
            error("bad argument #2 to newarray (must be either 0 or 1)", 2)
        end

        for i=0,maxbidx/32 do
            p[i] = -initval
        end
    end

    return setmetatable(p, mt)
end
Lunatic: add "bit array" helper module, rewrite the bit test in terms of that. git-svn-id: https://svn.eduke32.com/eduke32@2841 1a8010ca-5511-0410-912e-c29ae57300e0 2012-07-20 21:57:40 +00:00
			`-- "Bit array" module based on LuaJIT's BitOp.`

Lunatic: 'bitar': rewrite ops for colon syntax, serialization, set ops. git-svn-id: https://svn.eduke32.com/eduke32@2862 1a8010ca-5511-0410-912e-c29ae57300e0 2012-08-02 10:52:44 +00:00			`local ffi = require "ffi"`
Lunatic: add "bit array" helper module, rewrite the bit test in terms of that. git-svn-id: https://svn.eduke32.com/eduke32@2841 1a8010ca-5511-0410-912e-c29ae57300e0 2012-07-20 21:57:40 +00:00			`local bit = require "bit"`

			`local error = error`
Lunatic: 'bitar': rewrite ops for colon syntax, serialization, set ops. git-svn-id: https://svn.eduke32.com/eduke32@2862 1a8010ca-5511-0410-912e-c29ae57300e0 2012-08-02 10:52:44 +00:00			`local assert = assert`
Lunatic: add "bit array" helper module, rewrite the bit test in terms of that. git-svn-id: https://svn.eduke32.com/eduke32@2841 1a8010ca-5511-0410-912e-c29ae57300e0 2012-07-20 21:57:40 +00:00			`local type = type`

Lunatic: 'bitar': rewrite ops for colon syntax, serialization, set ops. git-svn-id: https://svn.eduke32.com/eduke32@2862 1a8010ca-5511-0410-912e-c29ae57300e0 2012-08-02 10:52:44 +00:00			`local setmetatable=setmetatable`
Lunatic: add "bit array" helper module, rewrite the bit test in terms of that. git-svn-id: https://svn.eduke32.com/eduke32@2841 1a8010ca-5511-0410-912e-c29ae57300e0 2012-07-20 21:57:40 +00:00

Lunatic: 'bitar': rewrite ops for colon syntax, serialization, set ops. git-svn-id: https://svn.eduke32.com/eduke32@2862 1a8010ca-5511-0410-912e-c29ae57300e0 2012-08-02 10:52:44 +00:00			`module(...)`
Lunatic: add "bit array" helper module, rewrite the bit test in terms of that. git-svn-id: https://svn.eduke32.com/eduke32@2841 1a8010ca-5511-0410-912e-c29ae57300e0 2012-07-20 21:57:40 +00:00

			`-- Is bit i set in bit array ar?`
			`function isset(ar, i)`
			`return bit.band(ar[bit.rshift(i, 5)], bit.lshift(1, i)) ~= 0`
			`end`

			`-- Set bit j in bit array ar.`
			`function set0(ar, j)`
			`local jx = bit.rshift(j, 5)`
			`ar[jx] = bit.band(ar[jx], bit.rol(0xfffffffe, j))`
			`end`

			`-- Clear bit j in bit array ar.`
			`function set1(ar, j)`
			`local jx = bit.rshift(j, 5)`
			`ar[jx] = bit.bor(ar[jx], bit.rol(0x00000001, j))`
			`end`
Lunatic: 'bitar': rewrite ops for colon syntax, serialization, set ops. git-svn-id: https://svn.eduke32.com/eduke32@2862 1a8010ca-5511-0410-912e-c29ae57300e0 2012-08-02 10:52:44 +00:00
			`local ops = { isset=isset, set0=set0, set1=set1 }`
			`local mt`
			`mt = {`
			`__index=ops,`

			`-- set ops disguised as arithmetic ones...`

			`__mul = function(ar1, ar2) -- set intersection`
			`assert(#ar1 == #ar2)`
			`local p = {}`
			`for i=0,#ar1 do`
			`p[i] = bit.band(ar1[i], ar2[i])`
			`end`
			`return setmetatable(p, mt)`
			`end,`

			`__add = function(ar1, ar2) -- set union`
			`assert(#ar1 == #ar2)`
			`local p = {}`
			`for i=0,#ar1 do`
			`p[i] = bit.bor(ar1[i], ar2[i])`
			`end`
			`return setmetatable(p, mt)`
			`end,`

			`__sub = function(ar1, ar2) -- set difference`
			`assert(#ar1 == #ar2)`
			`local p = {}`
			`for i=0,#ar1 do`
			`p[i] = bit.band(ar1[i], bit.bnot(ar2[i]))`
			`end`
			`return setmetatable(p, mt)`
			`end,`

			`-- serialization`
			`__tostring = function(ar)`
			`local maxidx=#ar`
			`local size=maxidx+1`

			`local hdr = "bitar.new('"`
			`local ofs = #hdr`
			`local totalstrlen = ofs+8*size+2`
			`local str = ffi.new("char [?]", totalstrlen)`

			`ffi.copy(str, hdr, ofs)`

			`for i=0,maxidx do`
			`-- 'a' is ASCII 97`
			`for nib=0,7 do`
			`str[ofs + 8i + nib] = 97 + bit.band(bit.rshift(ar[i], 4nib), 0x0000000f)`
			`end`
			`end`

			`ffi.copy(str+totalstrlen-2, "')", 2)`

			`return ffi.string(str, totalstrlen)`
			`end,`
			`}`

			`-- Create new bit array.`
			`-- Returns a table p in which entries p[0] through p[floor((maxbidx+31)/32)]`
			`-- are set to an initialization value: 0 if 0 has been passed, -1 if 1`
			`-- has been passed.`
			`-- Storage: 4 bits/bit + O(1)? (per 32 bits: 64 bits key, 64 bits value)`
			`function new(maxbidx, initval)`
			`local p = {}`

			`if (type(maxbidx)=="string") then`
			`-- string containing hex digits (a..p) given, internal`
			`local lstr = maxbidx`

			`local numnibs = #lstr`
			`assert(numnibs%8 == 0)`

			`local size = numnibs/8`
			`local maxidx = size-1`

			`local str = ffi.new("char [?]", numnibs)`
			`ffi.copy(str, lstr, numnibs)`

			`for i=0,maxidx do`
			`p[i] = 0`

			`for nib=0,7 do`
			`local hexdig = str[8*i + nib]`
			`assert(hexdig >= 97 and hexdig < 97+16)`
			`p[i] = bit.bor(p[i], bit.lshift(hexdig-97, 4*nib))`
			`end`
			`end`
			`else`
			`if (type(maxbidx) ~= "number" or not (maxbidx >= 0)) then`
			`error("bad argument #1 to newarray (must be a nonnegative number)", 2)`
			`end`

			`if (initval ~= 0 and initval ~= 1) then`
			`error("bad argument #2 to newarray (must be either 0 or 1)", 2)`
			`end`

			`for i=0,maxbidx/32 do`
			`p[i] = -initval`
			`end`
			`end`

			`return setmetatable(p, mt)`
			`end`