digilines/internal.lua

function digilines:getspec(node)
	if not minetest.registered_nodes[node.name] then return false end
	return minetest.registered_nodes[node.name].digiline
end

function digilines:importrules(spec, node)
	if type(spec) == 'function' then
		return spec(node)
	elseif spec then
		return spec
	else
		return digilines.rules.default
	end
end

function digiline:getAnyInputRules(pos)
	local node = digiline:get_node_force(pos)
	local spec = digiline:getspec(node)
	if not spec then return end

	if spec.wire then
		return digilines:importrules(spec.wire.rules, node)
	end
	if spec.effector then
		return digilines:importrules(spec.effector.rules, node)
	end
end

function digiline:getAnyOutputRules(pos)
	local node = digiline:get_node_force(pos)
	local spec = digiline:getspec(node)
	if not spec then return end

	if spec.wire then
		return digilines:importrules(spec.wire.rules, node)
	end
	if spec.receptor then
		return digilines:importrules(spec.receptor.rules, node)
	end
end

function digilines:rules_link(output, input)
	local outputrules = digilines:getAnyOutputRules(output)
	local inputrules  = digilines:getAnyInputRules (input)

	if not outputrules or not inputrules then return false end


	for _, orule in ipairs(outputrules) do
		if digilines:cmpPos(digilines:addPosRule(output, orule), input) then
			for _, irule in ipairs(inputrules) do
				if digilines:cmpPos(digilines:addPosRule(input, irule), output) then
					return true
				end
			end
		end
	end
	return false
end

function digilines:rules_link_anydir(output, input)
	return digilines:rules_link(output, input)
	or     digilines:rules_link(input, output)
end

local function queue_new()
	return {nextRead = 1, nextWrite = 1}
end

local function queue_empty(queue)
	return queue.nextRead == queue.nextWrite
end

local function queue_enqueue(queue, object)
	local nextWrite = queue.nextWrite
	queue[nextWrite] = object
	queue.nextWrite = nextWrite + 1
end

local function queue_dequeue(queue)
	local nextRead = queue.nextRead
	local object = queue[nextRead]
	queue[nextRead] = nil
	queue.nextRead = nextRead + 1
	return object
end

function digiline:transmit(pos, channel, msg, checked)
	digiline:vm_begin()
	local queue = queue_new()
	queue_enqueue(queue, pos)
	while not queue_empty(queue) do
		local curPos = queue_dequeue(queue)
		local node = digiline:get_node_force(curPos)
		local spec = digiline:getspec(node)
		if spec then
			-- Effector actions --> Receive
			if spec.effector then
				spec.effector.action(curPos, node, channel, msg)
			end

			-- Cable actions --> Transmit
			if spec.wire then
				local rules = digiline:importrules(spec.wire.rules, node)
				for _, rule in ipairs(rules) do
					local nextPos = digiline:addPosRule(curPos, rule)
					if digiline:rules_link(curPos, nextPos) then
						local checkedID = minetest.hash_node_position(nextPos)
						if not checked[checkedID] then
							checked[checkedID] = true
							queue_enqueue(queue, nextPos)
						end
					end
				end
			end
		end
	end
	digiline:vm_end()
end
Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`function digilines:getspec(node)`
Initial Upload 2013-01-20 00:03:51 +01:00			`if not minetest.registered_nodes[node.name] then return false end`
			`return minetest.registered_nodes[node.name].digiline`
			`end`

Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`function digilines:importrules(spec, node)`
Initial Upload 2013-01-20 00:03:51 +01:00			`if type(spec) == 'function' then`
			`return spec(node)`
			`elseif spec then`
			`return spec`
			`else`
Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`return digilines.rules.default`
Initial Upload 2013-01-20 00:03:51 +01:00			`end`
			`end`

			`function digiline:getAnyInputRules(pos)`
Use VoxelManipulators to force-load nodes. If a node needed during wire traversal is not currently loaded, it is loaded from disk using a VoxelManipulator. 2016-11-17 06:30:53 +01:00			`local node = digiline:get_node_force(pos)`
Make spec variable local 2014-04-24 22:56:10 +02:00			`local spec = digiline:getspec(node)`
Initial Upload 2013-01-20 00:03:51 +01:00			`if not spec then return end`

			`if spec.wire then`
Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`return digilines:importrules(spec.wire.rules, node)`
Initial Upload 2013-01-20 00:03:51 +01:00			`end`
			`if spec.effector then`
Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`return digilines:importrules(spec.effector.rules, node)`
Initial Upload 2013-01-20 00:03:51 +01:00			`end`
			`end`

			`function digiline:getAnyOutputRules(pos)`
Use VoxelManipulators to force-load nodes. If a node needed during wire traversal is not currently loaded, it is loaded from disk using a VoxelManipulator. 2016-11-17 06:30:53 +01:00			`local node = digiline:get_node_force(pos)`
Make spec variable local 2014-04-24 22:56:10 +02:00			`local spec = digiline:getspec(node)`
Initial Upload 2013-01-20 00:03:51 +01:00			`if not spec then return end`

			`if spec.wire then`
Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`return digilines:importrules(spec.wire.rules, node)`
Initial Upload 2013-01-20 00:03:51 +01:00			`end`
			`if spec.receptor then`
Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`return digilines:importrules(spec.receptor.rules, node)`
Initial Upload 2013-01-20 00:03:51 +01:00			`end`
			`end`

Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`function digilines:rules_link(output, input)`
			`local outputrules = digilines:getAnyOutputRules(output)`
			`local inputrules = digilines:getAnyInputRules (input)`
Initial Upload 2013-01-20 00:03:51 +01:00
			`if not outputrules or not inputrules then return false end`


			`for _, orule in ipairs(outputrules) do`
Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`if digilines:cmpPos(digilines:addPosRule(output, orule), input) then`
Initial Upload 2013-01-20 00:03:51 +01:00			`for _, irule in ipairs(inputrules) do`
Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`if digilines:cmpPos(digilines:addPosRule(input, irule), output) then`
Initial Upload 2013-01-20 00:03:51 +01:00			`return true`
			`end`
			`end`
			`end`
			`end`
			`return false`
			`end`

Rename global table to `digilines`. This also adds a backwards compat alias so other mods shouldn't break. 2017-03-01 04:57:58 +01:00			`function digilines:rules_link_anydir(output, input)`
			`return digilines:rules_link(output, input)`
			`or digilines:rules_link(input, output)`
Initial Upload 2013-01-20 00:03:51 +01:00			`end`

Replace DFS with BFS. Replace the recursive depth-first search of a wire network with an iterative breadth-first search, primarily to reduce memory footprint and eliminate the possibility of stack overflow. 2016-11-17 06:42:17 +01:00			`local function queue_new()`
			`return {nextRead = 1, nextWrite = 1}`
			`end`
Initial Upload 2013-01-20 00:03:51 +01:00
Replace DFS with BFS. Replace the recursive depth-first search of a wire network with an iterative breadth-first search, primarily to reduce memory footprint and eliminate the possibility of stack overflow. 2016-11-17 06:42:17 +01:00			`local function queue_empty(queue)`
			`return queue.nextRead == queue.nextWrite`
			`end`
Initial Upload 2013-01-20 00:03:51 +01:00
Replace DFS with BFS. Replace the recursive depth-first search of a wire network with an iterative breadth-first search, primarily to reduce memory footprint and eliminate the possibility of stack overflow. 2016-11-17 06:42:17 +01:00			`local function queue_enqueue(queue, object)`
			`local nextWrite = queue.nextWrite`
			`queue[nextWrite] = object`
			`queue.nextWrite = nextWrite + 1`
			`end`
Initial Upload 2013-01-20 00:03:51 +01:00
Replace DFS with BFS. Replace the recursive depth-first search of a wire network with an iterative breadth-first search, primarily to reduce memory footprint and eliminate the possibility of stack overflow. 2016-11-17 06:42:17 +01:00			`local function queue_dequeue(queue)`
			`local nextRead = queue.nextRead`
			`local object = queue[nextRead]`
			`queue[nextRead] = nil`
			`queue.nextRead = nextRead + 1`
			`return object`
			`end`
Initial Upload 2013-01-20 00:03:51 +01:00
Replace DFS with BFS. Replace the recursive depth-first search of a wire network with an iterative breadth-first search, primarily to reduce memory footprint and eliminate the possibility of stack overflow. 2016-11-17 06:42:17 +01:00			`function digiline:transmit(pos, channel, msg, checked)`
Use VoxelManipulators to force-load nodes. If a node needed during wire traversal is not currently loaded, it is loaded from disk using a VoxelManipulator. 2016-11-17 06:30:53 +01:00			`digiline:vm_begin()`
Replace DFS with BFS. Replace the recursive depth-first search of a wire network with an iterative breadth-first search, primarily to reduce memory footprint and eliminate the possibility of stack overflow. 2016-11-17 06:42:17 +01:00			`local queue = queue_new()`
			`queue_enqueue(queue, pos)`
			`while not queue_empty(queue) do`
			`local curPos = queue_dequeue(queue)`
Use VoxelManipulators to force-load nodes. If a node needed during wire traversal is not currently loaded, it is loaded from disk using a VoxelManipulator. 2016-11-17 06:30:53 +01:00			`local node = digiline:get_node_force(curPos)`
Replace DFS with BFS. Replace the recursive depth-first search of a wire network with an iterative breadth-first search, primarily to reduce memory footprint and eliminate the possibility of stack overflow. 2016-11-17 06:42:17 +01:00			`local spec = digiline:getspec(node)`
			`if spec then`
			`-- Effector actions --> Receive`
			`if spec.effector then`
			`spec.effector.action(curPos, node, channel, msg)`
			`end`

			`-- Cable actions --> Transmit`
			`if spec.wire then`
			`local rules = digiline:importrules(spec.wire.rules, node)`
			`for _, rule in ipairs(rules) do`
			`local nextPos = digiline:addPosRule(curPos, rule)`
			`if digiline:rules_link(curPos, nextPos) then`
Use `minetest.hash_node_position` for searches. Previously, Digilines used concatenations of X/Y/Z coordinates into strings as keys to check for repeatedly visiting the same node during a graph search. Replace them with integer keys generated by `minetest.hash_node_position`, which should be more efficient. 2017-02-20 00:15:00 +01:00			`local checkedID = minetest.hash_node_position(nextPos)`
Replace DFS with BFS. Replace the recursive depth-first search of a wire network with an iterative breadth-first search, primarily to reduce memory footprint and eliminate the possibility of stack overflow. 2016-11-17 06:42:17 +01:00			`if not checked[checkedID] then`
			`checked[checkedID] = true`
			`queue_enqueue(queue, nextPos)`
			`end`
			`end`
			`end`
Initial Upload 2013-01-20 00:03:51 +01:00			`end`
			`end`
			`end`
Use VoxelManipulators to force-load nodes. If a node needed during wire traversal is not currently loaded, it is loaded from disk using a VoxelManipulator. 2016-11-17 06:30:53 +01:00			`digiline:vm_end()`
Initial Upload 2013-01-20 00:03:51 +01:00			`end`