Tabs -> spaces

Add box allocation
2017-01-26 16:12:57 +01:00 · 2017-01-26 16:12:57 +01:00 · c4c203384c
commit c4c203384c
parent 396886ad28
1 changed files with 353 additions and 195 deletions
--- a/mods/boxes/init.lua
+++ b/mods/boxes/init.lua
@ -171,7 +171,7 @@ function boxes.load(minp, compressed)

 	-- Read cid mapping
 	local cid_mapping = {}
-  cid_index = read_u16()
+	local cid_index = read_u16()
 	for i = 0, cid_index - 1 do
 		cid_mapping[i] = minetest.get_content_id(read_string())
 	end
@ -220,6 +220,156 @@ function boxes.load(minp, compressed)

 end

+--[[
+	Now for box allocation.
+
+	To keep things simple, we will always allocate boxes with same width and
+	depth, and with a sizee that is a multiple of boxes_resolution. Height is
+	assumed to be unlimited above box_alloc_miny.
+	In order to do that, we keep a quadtree of allocatable positions; an allocated
+	box will always be a leaf of that tree. We also keep for each subtree the max
+	size that can be allocated in it.
+
+	Thus, this is https://en.wikipedia.org/wiki/Buddy_memory_allocation in 2D.
+]]
+
+local boxes_resolution = 64
+local box_alloc_miny = 50
+local boxes_tree = {
+	minp = {x = -16384, z = -16384},
+	edge_size = 32768,
+	max_alloc_size = 32768,
+}
+
+local function split_leaf(node)
+	assert (node.edge_size >= 2 * boxes_resolution)
+	assert (node.children == nil)
+	local new_size = node.edge_size / 2
+	local x = node.minp.x
+	local z = node.minp.z
+	node.children = {
+		{
+			minp = {x = x, z = z},
+			edge_size = new_size,
+			max_alloc_size = new_size,
+			parent = node
+		},
+		{
+			minp = {x = x + new_size, z = z},
+			edge_size = new_size,
+			max_alloc_size = new_size,
+			parent = node,
+		},
+		{
+			minp = {x = x, z = z + new_size},
+			edge_size = new_size,
+			max_alloc_size = new_size,
+			parent = node,
+		},
+		{
+			minp = {x = x + new_size, z = z + new_size},
+			edge_size = new_size,
+			max_alloc_size = new_size,
+			parent = node,
+		},
+	}
+end
+
+-- Update `max_alloc_size` for node and all its parents.
+-- Also, merge subtrees if possible.
+local function update_alloc_sizes(node)
+	while node ~= nil do
+		local max_size = 0
+		local el = node.edge_size / 2
+		local can_merge = true
+		for _, child in ipairs(node.children) do
+			max_size = math.max(max_size, child.max_alloc_size)
+			if child.max_alloc_size < el then
+				can_merge = false
+			end
+		end
+		if can_merge then
+			node.children = nil
+			node.max_alloc_size = node.edge_size
+		else
+			node.max_alloc_size = max_size
+		end
+		node = node.parent
+	end
+end
+
+-- Function to know how close to zero a node is.
+-- Used to keep allocations close to (0, box_alloc_miny, 0).
+local function zero_close(node)
+	local x = node.minp.x
+	local z = node.minp.z
+	local size = node.edge_size
+	if x < 0 then x = x + size end
+	if z < 0 then z = z + size end
+	return math.abs(x) + math.abs(z)
+end
+
+-- Allocated a box of size `size` horizontally, and unbounded vertically
+-- Returns box minimum position. The minimum position must be given to
+-- boxes.vfree to free the corresponding area.
+function boxes.valloc(size)
+	assert (size > 0)
+	if boxes_tree.max_alloc_size < size then
+		return nil
+	end
+
+	-- Find leaf with enough room, splitting it if big enough
+	local node = boxes_tree
+	while node.edge_size / 2 >= size and node.edge_size / 2 >= boxes_resolution do
+		if node.children == nil then
+			split_leaf(node)
+		end
+
+		local best = nil
+		local best_distance = 1e10 -- infinity
+		for _, child in ipairs(node.children) do
+			if child.max_alloc_size >= size and zero_close(child) < best_distance then
+				best_distance = zero_close(child)
+				best = child
+			end
+		end
+		assert (best ~= nil)
+		node = best
+	end
+
+	local result = {x = node.minp.x, y = box_alloc_miny, z = node.minp.z}
+	node.max_alloc_size = 0
+	update_alloc_sizes(node.parent)
+	return result
+end
+
+function boxes.vfree(minp)
+	assert (minp.y == box_alloc_miny)
+	assert (boxes_tree.minp.x <= minp.x)
+	assert (minp.x < boxes_tree.minp.x + boxes_tree.edge_size)
+	assert (boxes_tree.minp.z <= minp.z)
+	assert (minp.z < boxes_tree.minp.z + boxes_tree.edge_size)
+
+	-- Find leaf containing minp
+	local node = boxes_tree
+	while node.children ~= nil do
+		local cld = nil
+		local el = node.edge_size / 2
+		for _, child in ipairs(node.children) do
+			if child.minp.x <= minp.x and minp.x < child.minp.x + el
+					and child.minp.z <= minp.z and minp.z < child.minp.z + el then
+				cld = child
+				break
+			end
+		end
+		assert (cld ~= nil)
+		node = cld
+	end
+
+	assert (node.max_alloc_size == 0)
+	node.max_alloc_size = node.edge_size
+	update_alloc_sizes(node.parent)
+end

 -- test code
 --[[
@ -228,5 +378,13 @@ minetest.after(5, function()
 	                        {x =  1, y = -2, z =  1})
 	print(string.len(data))
 	boxes.load({x = -10, y = 0, z = 5}, data)
+
+	print(dump(boxes_tree))
+	local minp = boxes.valloc(237)
+	print(dump(minp))
+	print(dump(boxes_tree))
+	boxes.vfree(minp)
+	print(dump(boxes_tree))
+
 end)
 ]]