digilines/internal.lua
Christopher Head 84133a10df 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.
2017-02-28 22:13:19 -08:00

120 lines
2.9 KiB
Lua

function digiline:getspec(node)
if not minetest.registered_nodes[node.name] then return false end
return minetest.registered_nodes[node.name].digiline
end
function digiline:importrules(spec, node)
if type(spec) == 'function' then
return spec(node)
elseif spec then
return spec
else
return digiline.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 digiline:importrules(spec.wire.rules, node)
end
if spec.effector then
return digiline: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 digiline:importrules(spec.wire.rules, node)
end
if spec.receptor then
return digiline:importrules(spec.receptor.rules, node)
end
end
function digiline:rules_link(output, input)
local outputrules = digiline:getAnyOutputRules(output)
local inputrules = digiline:getAnyInputRules (input)
if not outputrules or not inputrules then return false end
for _, orule in ipairs(outputrules) do
if digiline:cmpPos(digiline:addPosRule(output, orule), input) then
for _, irule in ipairs(inputrules) do
if digiline:cmpPos(digiline:addPosRule(input, irule), output) then
return true
end
end
end
end
return false
end
function digiline:rules_link_anydir(output, input)
return digiline:rules_link(output, input)
or digiline: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