VoxeLibre/mods/ITEMS/REDSTONE/vl_redstone/init.lua

267 lines
8.8 KiB
Lua

local modname = minetest.get_current_modname()
local modpath = minetest.get_modpath(modname)
vl_redstone = {}
local mod = vl_redstone
-- Imports
local mcl_util_force_get_node = mcl_util.force_get_node
local mcl_util_call_safe = mcl_util.call_safe
local minetest_get_item_group = minetest.get_item_group
local minetest_get_meta = minetest.get_meta
local minetest_hash_node_pos = minetest.hash_node_position
local minetest_get_position_from_hash = minetest.get_position_from_hash
local minetest_serialize = minetest.serialize
local minetest_deserialize = minetest.deserialize
local minetest_swap_node = minetest.swap_node
local vector_add = vector.add
local vector_to_string = vector.to_string
local vector_from_string = vector.from_string
-- Constants
local REDSTONE_POWER_META = modname .. ".power"
local REDSTONE_POWER_META_SOURCE = REDSTONE_POWER_META.."."
local multipower_cache = {}
local function get_node_multipower_data(pos)
local hash = minetest_hash_node_pos(pos)
local node_multipower = multipower_cache[hash]
if not node_multipower then
local meta = minetest_get_meta(pos)
node_multipower = minetest_deserialize(meta:get_string("vl_redstone.multipower")) or {sources={}}
multipower_cache[hash] = node_multipower
end
return node_multipower
end
local function update_node(pos)
local node = mcl_util_force_get_node(pos)
local nodedef = minetest.registered_nodes[node.name]
-- Only do this processing of signal sinks
if not nodedef.mesecons then return end
-- Calculate the maximum power feeding into this node
local node_multipower = get_node_multipower_data(pos)
local strength = 0
local sources = node_multipower.sources
--print("in update_node(pos="..vector_to_string(pos)..") node_multipower("..tostring(node_multipower)..")="..dump(node_multipower))
for pos_hash,source_strength in pairs(sources) do
--print("\t"..vector_to_string(pos)..".source["..vector_to_string(minetest_get_position_from_hash(pos_hash)).."] = "..tostring(strength))
if source_strength > strength then strength = source_strength end
end
-- Don't do any processing inf the actual strength at this node has changed
local last_strength = node_multipower.strength or 0
--print("At "..vector_to_string(pos).." strength="..tostring(strength)..",last_strength="..tostring(last_strength))
if last_strength == strength then return end
-- Update the state
node_multipower.strength = strength
-- TODO: determine the input rule that the strength is coming from (for mesecons compatibility; there are mods that depend on it)
local rule = nil
local sink = nodedef.mesecons.effector
if sink then
local new_node_name = nil
--print("Updating "..node.name.." at "..vector_to_string(pos).."("..tostring(last_strength).."->"..tostring(strength)..")")
-- Inform the node of changes
if strength ~= 0 and last_strength == 0 then
-- Handle activation
local hook = sink.action_on
if hook then
mcl_util_call_safe(nil, hook, {pos, node, rule, strength})
end
if sink.onstate then
new_node_name = sink.onstate
end
elseif strength == 0 and last_strength ~= 0 then
-- Handle deactivation
local hook = sink.action_off
if hook then
mcl_util_call_safe(nil, hook, {pos, node, rule, strength})
end
if sink.offstate then
new_node_name = sink.offstate
end
end
-- TODO: handle signal level change notification
local hook = sink.action_change
if hook then
mcl_util_call_safe(nil, hook, {pos, node, rule, strength})
end
if sink.strength_state then
new_node_name = sink.strength_state[strength]
end
-- Update the node
if new_node_name and new_node_name ~= node.name then
node.name = new_node_name
minetest_swap_node(pos, node)
end
return
end
local conductor = nodedef.mesecons.conductor
if conductor then
-- Figure out if the node name changes based on the new state
local new_node_name = nil
if conductor.strength_state then
new_node_name = conductor.strength_state[strength]
elseif strength > 0 and conductor.onstate then
new_node_name = conductor.onstate
elseif strength == 0 and conductor.offstate then
new_node_name = conductor.offstate
end
-- Update the node
if new_node_name and new_node_name ~= node.name then
--[[
print("Changing "..vector_to_string(pos).." from "..node.name.." to "..new_node_name..
", strength="..tostring(strength)..",last_strength="..tostring(last_strength))
print("node.name="..node.name..
",conductor.onstate="..tostring(conductor.onstate)..
",conductor.offstate="..tostring(conductor.offstate)
)
--]]
node.name = new_node_name
minetest_swap_node(pos, node)
end
end
end
local POWERED_BLOCK_RULES = {
vector.new( 1, 0, 0),
vector.new(-1, 0, 0),
vector.new( 0, 1, 0),
vector.new( 0,-1, 0),
vector.new( 0, 0, 1),
vector.new( 0, 0,-1),
}
local function get_positions_from_node_rules(pos, rules_type, list, powered)
list = list or {}
local node = mcl_util_force_get_node(pos)
local nodedef = minetest.registered_nodes[node.name]
local rules
if nodedef.mesecons then
-- Get mesecons rules
if not nodedef.mesecons[rules_type] then
minetest.log("info","Node "..node.name.." has no mesecons."..rules_type.." rules")
return list
end
rules = nodedef.mesecons[rules_type].rules
if type(rules) == "function" then rules = rules(node) end
else
-- The only blocks that don't support mesecon that propagate power are solid blocks that
-- are powered by another device. Mesecons calls this 'spread'
if not powered[minetest_hash_node_pos(pos)] then return list end
if minetest_get_item_group(node.name,"solid") == 0 then return list end
rules = POWERED_BLOCK_RULES
end
--print("rules="..dump(rules))
-- Convert to absolute positions
for i=1,#rules do
local next_pos = vector_add(pos, rules[i])
local next_pos_hash = minetest_hash_node_pos(next_pos)
--print("\tnext: "..next_pos_str..", prev="..tostring(list[next_pos_str]))
list[next_pos_hash] = true
-- Power solid blocks
if rules[i].spread then
powered[next_pos_hash] = true
--print("powering "..vector_to_string(next_pos)
end
end
return list
end
vl_scheduler.register_function("vl_redstone:flow_power",function(task, source_pos, source_strength, distance)
print("Flowing lv"..tostring(source_strength).." power from "..vector_to_string(source_pos).." for "..tostring(distance).." blocks")
local processed = {}
local powered = {}
local source_pos_hash = minetest_hash_node_pos(source_pos)
processed[source_pos_hash] = true
-- Update the source node's redstone power
local node_multipower = get_node_multipower_data(source_pos)
node_multipower.strength = source_strength
node_multipower.drive_strength = source_strength
-- Get rules
local list = {}
get_positions_from_node_rules(source_pos, "receptor", list, powered)
--print("initial list="..dump(list))
for i=1,distance do
local next_list = {}
local strength = source_strength - (i - 1)
if strength < 0 then strength = 0 end
for pos_hash,dir in pairs(list) do
--print("Processing "..pos_str)
if not processed[pos_hash] then
processed[pos_hash] = true
local pos = minetest_get_position_from_hash(pos_hash)
-- Update node power directly
local node_multipower = get_node_multipower_data(pos)
--local old_strength = node_multipower.sources[source_pos_hash] or 0
--print("Changing "..vector.to_string(pos)..".source["..vector_to_string(source_pos).."] from "..tostring(old_strength).." to "..tostring(strength))
--print("\tBefore node_multipower("..tostring(node_multipower)..")="..dump(node_multipower))
node_multipower.sources[source_pos_hash] = strength
--print("\tAfter node_multipower("..tostring(node_multipower)..")="..dump(node_multipower))
-- handle spread
get_positions_from_node_rules(pos, "conductor", next_list, powered)
-- Update the position
update_node(pos)
end
end
-- Continue onto the next set of nodes to process
list = next_list
end
end)
function vl_redstone.set_power(pos, strength)
local node_multipower = get_node_multipower_data(pos)
local distance = node_multipower.drive_strength or 0
-- Don't perform an update if the power level is the same as before
if distance == strength then return end
--print("previous="..tostring(distance)..", new="..tostring(strength))
-- Make the update distance the maximum of the new strength and the old strength
if distance < strength then
distance = strength
end
-- Schedule an update
vl_scheduler.add_task(0, "vl_redstone:flow_power", 2, {pos, strength, distance + 1})
end
function vl_redstone.get_power_level(pos)
local node_multipower = get_node_multipower_data(pos)
return node_multipower.strength or 0
end
-- Persist multipower data
minetest.register_on_shutdown(function()
for pos_hash,node_multipower in pairs(multipower_cache) do
local pos = minetest_get_position_from_hash(pos_hash)
local meta = minetest_get_meta(pos)
meta:set_string("vl_redstone.multipower", minetest_serialize(node_multipower))
end
end)