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voxelarea.lua
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voxelarea.lua
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local math_floor = math.floor
local vector_new = vector.new
VoxelArea = {
MinEdge = vector_new(1, 1, 1),
MaxEdge = vector_new(0, 0, 0),
ystride = 0,
zstride = 0,
}
local class_metatable = {}
setmetatable(VoxelArea, class_metatable)
local function new(self, o)
o = o or {}
setmetatable(o, self)
self.__index = self
local e = o:getExtent()
o.ystride = e.x
o.zstride = e.x * e.y
return o
end
function class_metatable:__call(MinEdge, MaxEdge)
return new(self, {MinEdge = MinEdge, MaxEdge = MaxEdge})
end
VoxelArea.new = new
function VoxelArea:getExtent()
local MaxEdge, MinEdge = self.MaxEdge, self.MinEdge
return vector_new(
MaxEdge.x - MinEdge.x + 1,
MaxEdge.y - MinEdge.y + 1,
MaxEdge.z - MinEdge.z + 1
)
end
function VoxelArea:getVolume()
local e = self:getExtent()
return e.x * e.y * e.z
end
function VoxelArea:index(x, y, z)
local MinEdge = self.MinEdge
local i = (z - MinEdge.z) * self.zstride +
(y - MinEdge.y) * self.ystride +
(x - MinEdge.x) + 1
return math_floor(i)
end
function VoxelArea:indexp(p)
local MinEdge = self.MinEdge
local i = (p.z - MinEdge.z) * self.zstride +
(p.y - MinEdge.y) * self.ystride +
(p.x - MinEdge.x) + 1
return math_floor(i)
end
function VoxelArea:position(i)
local MinEdge = self.MinEdge
i = i - 1
local z = math_floor(i / self.zstride) + MinEdge.z
i = i % self.zstride
local y = math_floor(i / self.ystride) + MinEdge.y
i = i % self.ystride
local x = math_floor(i) + MinEdge.x
return vector_new(x, y, z)
end
function VoxelArea:contains(x, y, z)
local MaxEdge, MinEdge = self.MaxEdge, self.MinEdge
return (x >= MinEdge.x) and (x <= MaxEdge.x) and
(y >= MinEdge.y) and (y <= MaxEdge.y) and
(z >= MinEdge.z) and (z <= MaxEdge.z)
end
function VoxelArea:containsp(p)
local MaxEdge, MinEdge = self.MaxEdge, self.MinEdge
return (p.x >= MinEdge.x) and (p.x <= MaxEdge.x) and
(p.y >= MinEdge.y) and (p.y <= MaxEdge.y) and
(p.z >= MinEdge.z) and (p.z <= MaxEdge.z)
end
function VoxelArea:containsi(i)
return (i >= 1) and (i <= self:getVolume())
end
function VoxelArea:iter(minx, miny, minz, maxx, maxy, maxz)
local i = self:index(minx, miny, minz) - 1
local xrange = maxx - minx + 1
local nextaction = i + 1 + xrange
local y = 0
local yrange = maxy - miny + 1
local yreqstride = self.ystride - xrange
local z = 0
local zrange = maxz - minz + 1
local multistride = self.zstride - ((yrange - 1) * self.ystride + xrange)
return function()
-- continue i until it needs to jump
i = i + 1
if i ~= nextaction then
return i
end
-- continue y until maxy is exceeded
y = y + 1
if y ~= yrange then
-- set i to index(minx, miny + y, minz + z) - 1
i = i + yreqstride
nextaction = i + xrange
return i
end
-- continue z until maxz is exceeded
z = z + 1
if z == zrange then
-- cuboid finished, return nil
return
end
-- set i to index(minx, miny, minz + z) - 1
i = i + multistride
y = 0
nextaction = i + xrange
return i
end
end
function VoxelArea:iterp(minp, maxp)
return self:iter(minp.x, minp.y, minp.z, maxp.x, maxp.y, maxp.z)
end