minetest-mods/mesecons
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Replace mesecon:<some_function> with mesecon.<some_function> for greater

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flexibility and because it was never inteded to be OOP in the first
place.

mesecon.receptor_on and mesecon.receptor_off are provided by wrappers
(mesecon:receptor_on/off) for compatibility, but will be removed. Mod
programmers that use mesecons: Please update!

Also, fix microcontroller polluting the global namespace and remove some
deprecated stuff.
This commit is contained in:
Jeija
2014-11-22 15:42:22 +01:00
parent ffacbfde5a
commit 5be179bf11
31 changed files with 455 additions and 488 deletions
Download Patch File Download Diff File Expand all files Collapse all files

12
mesecons/actionqueue.lua
View File

@ -12,19 +12,19 @@ function mesecon.queue:add_action(pos, func, params, time, overwritecheck, prior
-- Create Action Table:
time = time or 0 -- time <= 0 --> execute, time > 0 --> wait time until execution
priority = priority or 1
local action = { pos=mesecon:tablecopy(pos),
local action = { pos=mesecon.tablecopy(pos),
func=func,
params=mesecon:tablecopy(params or {}),
params=mesecon.tablecopy(params or {}),
time=time,
owcheck=(overwritecheck and mesecon:tablecopy(overwritecheck)) or nil,
owcheck=(overwritecheck and mesecon.tablecopy(overwritecheck)) or nil,
priority=priority}
local toremove = nil
-- Otherwise, add the action to the queue
if overwritecheck then -- check if old action has to be overwritten / removed:
for i, ac in ipairs(mesecon.queue.actions) do
if(mesecon:cmpPos(pos, ac.pos)
and mesecon:cmpAny(overwritecheck, ac.owcheck)) then
if(mesecon.cmpPos(pos, ac.pos)
and mesecon.cmpAny(overwritecheck, ac.owcheck)) then
toremove = i
break
end
@ -60,7 +60,7 @@ local m_time = 0
minetest.register_globalstep(function (dtime)
m_time = m_time + dtime
if (m_time < MESECONS_RESUMETIME) then return end -- don't even try if server has not been running for XY seconds
local actions = mesecon:tablecopy(mesecon.queue.actions)
local actions = mesecon.tablecopy(mesecon.queue.actions)
local actions_now={}
mesecon.queue.actions = {}

32
mesecons/init.lua
View File

@ -78,8 +78,8 @@ mesecon.queue:add_function("receptor_on", function (pos, rules)
rules = rules or mesecon.rules.default
-- if area (any of the rule targets) is not loaded, keep trying and call this again later
for _, rule in ipairs(mesecon:flattenrules(rules)) do
local np = mesecon:addPosRule(pos, rule)
for _, rule in ipairs(mesecon.flattenrules(rules)) do
local np = mesecon.addPosRule(pos, rule)
-- if area is not loaded, keep trying
if minetest.get_node_or_nil(np) == nil then
mesecon.queue:add_action(pos, "receptor_on", {rules}, nil, rules)
@ -88,16 +88,16 @@ mesecon.queue:add_function("receptor_on", function (pos, rules)
end
-- execute action
for _, rule in ipairs(mesecon:flattenrules(rules)) do
local np = mesecon:addPosRule(pos, rule)
local rulenames = mesecon:rules_link_rule_all(pos, rule)
for _, rule in ipairs(mesecon.flattenrules(rules)) do
local np = mesecon.addPosRule(pos, rule)
local rulenames = mesecon.rules_link_rule_all(pos, rule)
for _, rulename in ipairs(rulenames) do
mesecon:turnon(np, rulename)
mesecon.turnon(np, rulename)
end
end
end)
function mesecon:receptor_on(pos, rules)
function mesecon.receptor_on(pos, rules)
mesecon.queue:add_action(pos, "receptor_on", {rules}, nil, rules)
end
@ -105,28 +105,28 @@ mesecon.queue:add_function("receptor_off", function (pos, rules)
rules = rules or mesecon.rules.default
-- if area (any of the rule targets) is not loaded, keep trying and call this again later
for _, rule in ipairs(mesecon:flattenrules(rules)) do
local np = mesecon:addPosRule(pos, rule)
for _, rule in ipairs(mesecon.flattenrules(rules)) do
local np = mesecon.addPosRule(pos, rule)
if minetest.get_node_or_nil(np) == nil then
mesecon.queue:add_action(pos, "receptor_off", {rules}, nil, rules)
return
end
end
for _, rule in ipairs(mesecon:flattenrules(rules)) do
local np = mesecon:addPosRule(pos, rule)
local rulenames = mesecon:rules_link_rule_all(pos, rule)
for _, rule in ipairs(mesecon.flattenrules(rules)) do
local np = mesecon.addPosRule(pos, rule)
local rulenames = mesecon.rules_link_rule_all(pos, rule)
for _, rulename in ipairs(rulenames) do
if not mesecon:connected_to_receptor(np, mesecon:invertRule(rule)) then
mesecon:turnoff(np, rulename)
if not mesecon.connected_to_receptor(np, mesecon.invertRule(rule)) then
mesecon.turnoff(np, rulename)
else
mesecon:changesignal(np, minetest.get_node(np), rulename, mesecon.state.off, 2)
mesecon.changesignal(np, minetest.get_node(np), rulename, mesecon.state.off, 2)
end
end
end
end)
function mesecon:receptor_off(pos, rules)
function mesecon.receptor_off(pos, rules)
mesecon.queue:add_action(pos, "receptor_off", {rules}, nil, rules)
end

373
mesecons/internal.lua
View File

@ -3,56 +3,56 @@
-- For more practical developer resources see mesecons.tk
--
-- Function overview
-- mesecon:get_effector(nodename) --> Returns the mesecons.effector -specifictation in the nodedef by the nodename
-- mesecon:get_receptor(nodename) --> Returns the mesecons.receptor -specifictation in the nodedef by the nodename
-- mesecon:get_conductor(nodename) --> Returns the mesecons.conductor-specifictation in the nodedef by the nodename
-- mesecon:get_any_inputrules (node) --> Returns the rules of a node if it is a conductor or an effector
-- mesecon:get_any_outputrules (node) --> Returns the rules of a node if it is a conductor or a receptor
-- mesecon.get_effector(nodename) --> Returns the mesecons.effector -specifictation in the nodedef by the nodename
-- mesecon.get_receptor(nodename) --> Returns the mesecons.receptor -specifictation in the nodedef by the nodename
-- mesecon.get_conductor(nodename) --> Returns the mesecons.conductor-specifictation in the nodedef by the nodename
-- mesecon.get_any_inputrules (node) --> Returns the rules of a node if it is a conductor or an effector
-- mesecon.get_any_outputrules (node) --> Returns the rules of a node if it is a conductor or a receptor
-- RECEPTORS
-- mesecon:is_receptor(nodename) --> Returns true if nodename is a receptor
-- mesecon:is_receptor_on(nodename) --> Returns true if nodename is an receptor with state = mesecon.state.on
-- mesecon:is_receptor_off(nodename) --> Returns true if nodename is an receptor with state = mesecon.state.off
-- mesecon:receptor_get_rules(node) --> Returns the rules of the receptor (mesecon.rules.default if none specified)
-- mesecon.is_receptor(nodename) --> Returns true if nodename is a receptor
-- mesecon.is_receptor_on(nodename) --> Returns true if nodename is an receptor with state = mesecon.state.on
-- mesecon.is_receptor_off(nodename) --> Returns true if nodename is an receptor with state = mesecon.state.off
-- mesecon.receptor_get_rules(node) --> Returns the rules of the receptor (mesecon.rules.default if none specified)
-- EFFECTORS
-- mesecon:is_effector(nodename) --> Returns true if nodename is an effector
-- mesecon:is_effector_on(nodename) --> Returns true if nodename is an effector with nodedef.mesecons.effector.action_off
-- mesecon:is_effector_off(nodename) --> Returns true if nodename is an effector with nodedef.mesecons.effector.action_on
-- mesecon:effector_get_rules(node) --> Returns the input rules of the effector (mesecon.rules.default if none specified)
-- mesecon.is_effector(nodename) --> Returns true if nodename is an effector
-- mesecon.is_effector_on(nodename) --> Returns true if nodename is an effector with nodedef.mesecons.effector.action_off
-- mesecon.is_effector_off(nodename) --> Returns true if nodename is an effector with nodedef.mesecons.effector.action_on
-- mesecon.effector_get_rules(node) --> Returns the input rules of the effector (mesecon.rules.default if none specified)
-- SIGNALS
-- mesecon:activate(pos, node, depth) --> Activates the effector node at the specific pos (calls nodedef.mesecons.effector.action_on), higher depths are executed later
-- mesecon:deactivate(pos, node, depth) --> Deactivates the effector node at the specific pos (calls nodedef.mesecons.effector.action_off), higher depths are executed later
-- mesecon:changesignal(pos, node, rulename, newstate, depth) --> Changes the effector node at the specific pos (calls nodedef.mesecons.effector.action_change), higher depths are executed later
-- mesecon.activate(pos, node, depth) --> Activates the effector node at the specific pos (calls nodedef.mesecons.effector.action_on), higher depths are executed later
-- mesecon.deactivate(pos, node, depth) --> Deactivates the effector node at the specific pos (calls nodedef.mesecons.effector.action_off), higher depths are executed later
-- mesecon.changesignal(pos, node, rulename, newstate, depth) --> Changes the effector node at the specific pos (calls nodedef.mesecons.effector.action_change), higher depths are executed later
-- CONDUCTORS
-- mesecon:is_conductor(nodename) --> Returns true if nodename is a conductor
-- mesecon:is_conductor_on(node) --> Returns true if node is a conductor with state = mesecon.state.on
-- mesecon:is_conductor_off(node) --> Returns true if node is a conductor with state = mesecon.state.off
-- mesecon:get_conductor_on(node_off) --> Returns the onstate nodename of the conductor
-- mesecon:get_conductor_off(node_on) --> Returns the offstate nodename of the conductor
-- mesecon:conductor_get_rules(node) --> Returns the input+output rules of a conductor (mesecon.rules.default if none specified)
-- mesecon.is_conductor(nodename) --> Returns true if nodename is a conductor
-- mesecon.is_conductor_on(node) --> Returns true if node is a conductor with state = mesecon.state.on
-- mesecon.is_conductor_off(node) --> Returns true if node is a conductor with state = mesecon.state.off
-- mesecon.get_conductor_on(node_off) --> Returns the onstate nodename of the conductor
-- mesecon.get_conductor_off(node_on) --> Returns the offstate nodename of the conductor
-- mesecon.conductor_get_rules(node) --> Returns the input+output rules of a conductor (mesecon.rules.default if none specified)
-- HIGH-LEVEL Internals
-- mesecon:is_power_on(pos) --> Returns true if pos emits power in any way
-- mesecon:is_power_off(pos) --> Returns true if pos does not emit power in any way
-- mesecon:turnon(pos, rulename) --> Returns true whatever there is at pos. Calls itself for connected nodes (if pos is a conductor) --> recursive, the rulename is the name of the input rule that caused calling turnon; Uses third parameter recdepth internally to determine how far away the current node is from the initial pos as it uses recursion
-- mesecon:turnoff(pos, rulename) --> Turns off whatever there is at pos. Calls itself for connected nodes (if pos is a conductor) --> recursive, the rulename is the name of the input rule that caused calling turnoff; Uses third parameter recdepth internally to determine how far away the current node is from the initial pos as it uses recursion
-- mesecon:connected_to_receptor(pos) --> Returns true if pos is connected to a receptor directly or via conductors; calls itself if pos is a conductor --> recursive
-- mesecon:rules_link(output, input, dug_outputrules) --> Returns true if outputposition + outputrules = inputposition and inputposition + inputrules = outputposition (if the two positions connect)
-- mesecon:rules_link_anydir(outp., inp., d_outpr.) --> Same as rules mesecon:rules_link but also returns true if output and input are swapped
-- mesecon:is_powered(pos) --> Returns true if pos is powered by a receptor or a conductor
-- mesecon.is_power_on(pos) --> Returns true if pos emits power in any way
-- mesecon.is_power_off(pos) --> Returns true if pos does not emit power in any way
-- mesecon.turnon(pos, rulename) --> Returns true whatever there is at pos. Calls itself for connected nodes (if pos is a conductor) --> recursive, the rulename is the name of the input rule that caused calling turnon; Uses third parameter recdepth internally to determine how far away the current node is from the initial pos as it uses recursion
-- mesecon.turnoff(pos, rulename) --> Turns off whatever there is at pos. Calls itself for connected nodes (if pos is a conductor) --> recursive, the rulename is the name of the input rule that caused calling turnoff; Uses third parameter recdepth internally to determine how far away the current node is from the initial pos as it uses recursion
-- mesecon.connected_to_receptor(pos) --> Returns true if pos is connected to a receptor directly or via conductors; calls itself if pos is a conductor --> recursive
-- mesecon.rules_link(output, input, dug_outputrules) --> Returns true if outputposition + outputrules = inputposition and inputposition + inputrules = outputposition (if the two positions connect)
-- mesecon.rules_link_anydir(outp., inp., d_outpr.) --> Same as rules mesecon.rules_link but also returns true if output and input are swapped
-- mesecon.is_powered(pos) --> Returns true if pos is powered by a receptor or a conductor
-- RULES ROTATION helpsers
-- mesecon:rotate_rules_right(rules)
-- mesecon:rotate_rules_left(rules)
-- mesecon:rotate_rules_up(rules)
-- mesecon:rotate_rules_down(rules)
-- mesecon.rotate_rules_right(rules)
-- mesecon.rotate_rules_left(rules)
-- mesecon.rotate_rules_up(rules)
-- mesecon.rotate_rules_down(rules)
-- These functions return rules that have been rotated in the specific direction
-- General
function mesecon:get_effector(nodename)
function mesecon.get_effector(nodename)
if minetest.registered_nodes[nodename]
and minetest.registered_nodes[nodename].mesecons
and minetest.registered_nodes[nodename].mesecons.effector then
@ -60,7 +60,7 @@ function mesecon:get_effector(nodename)
end
end
function mesecon:get_receptor(nodename)
function mesecon.get_receptor(nodename)
if minetest.registered_nodes[nodename]
and minetest.registered_nodes[nodename].mesecons
and minetest.registered_nodes[nodename].mesecons.receptor then
@ -68,7 +68,7 @@ function mesecon:get_receptor(nodename)
end
end
function mesecon:get_conductor(nodename)
function mesecon.get_conductor(nodename)
if minetest.registered_nodes[nodename]
and minetest.registered_nodes[nodename].mesecons
and minetest.registered_nodes[nodename].mesecons.conductor then
@ -76,52 +76,52 @@ function mesecon:get_conductor(nodename)
end
end
function mesecon:get_any_outputrules (node)
if mesecon:is_conductor(node.name) then
return mesecon:conductor_get_rules(node)
elseif mesecon:is_receptor(node.name) then
return mesecon:receptor_get_rules(node)
function mesecon.get_any_outputrules (node)
if mesecon.is_conductor(node.name) then
return mesecon.conductor_get_rules(node)
elseif mesecon.is_receptor(node.name) then
return mesecon.receptor_get_rules(node)
end
return false
end
function mesecon:get_any_inputrules (node)
if mesecon:is_conductor(node.name) then
return mesecon:conductor_get_rules(node)
elseif mesecon:is_effector(node.name) then
return mesecon:effector_get_rules(node)
function mesecon.get_any_inputrules (node)
if mesecon.is_conductor(node.name) then
return mesecon.conductor_get_rules(node)
elseif mesecon.is_effector(node.name) then
return mesecon.effector_get_rules(node)
end
return false
end
-- Receptors
-- Nodes that can power mesecons
function mesecon:is_receptor_on(nodename)
local receptor = mesecon:get_receptor(nodename)
function mesecon.is_receptor_on(nodename)
local receptor = mesecon.get_receptor(nodename)
if receptor and receptor.state == mesecon.state.on then
return true
end
return false
end
function mesecon:is_receptor_off(nodename)
local receptor = mesecon:get_receptor(nodename)
function mesecon.is_receptor_off(nodename)
local receptor = mesecon.get_receptor(nodename)
if receptor and receptor.state == mesecon.state.off then
return true
end
return false
end
function mesecon:is_receptor(nodename)
local receptor = mesecon:get_receptor(nodename)
function mesecon.is_receptor(nodename)
local receptor = mesecon.get_receptor(nodename)
if receptor then
return true
end
return false
end
function mesecon:receptor_get_rules(node)
local receptor = mesecon:get_receptor(node.name)
function mesecon.receptor_get_rules(node)
local receptor = mesecon.get_receptor(node.name)
if receptor then
local rules = receptor.rules
if type(rules) == 'function' then
@ -136,32 +136,32 @@ end
-- Effectors
-- Nodes that can be powered by mesecons
function mesecon:is_effector_on(nodename)
local effector = mesecon:get_effector(nodename)
function mesecon.is_effector_on(nodename)
local effector = mesecon.get_effector(nodename)
if effector and effector.action_off then
return true
end
return false
end
function mesecon:is_effector_off(nodename)
local effector = mesecon:get_effector(nodename)
function mesecon.is_effector_off(nodename)
local effector = mesecon.get_effector(nodename)
if effector and effector.action_on then
return true
end
return false
end
function mesecon:is_effector(nodename)
local effector = mesecon:get_effector(nodename)
function mesecon.is_effector(nodename)
local effector = mesecon.get_effector(nodename)
if effector then
return true
end
return false
end
function mesecon:effector_get_rules(node)
local effector = mesecon:get_effector(node.name)
function mesecon.effector_get_rules(node)
local effector = mesecon.get_effector(node.name)
if effector then
local rules = effector.rules
if type(rules) == 'function' then
@ -180,17 +180,17 @@ end
-- Activation:
mesecon.queue:add_function("activate", function (pos, rulename)
node = minetest.get_node(pos)
effector = mesecon:get_effector(node.name)
effector = mesecon.get_effector(node.name)
if effector and effector.action_on then
effector.action_on(pos, node, rulename)
end
end)
function mesecon:activate(pos, node, rulename, depth)
function mesecon.activate(pos, node, rulename, depth)
if rulename == nil then
for _,rule in ipairs(mesecon:effector_get_rules(node)) do
mesecon:activate(pos, node, rule, depth + 1)
for _,rule in ipairs(mesecon.effector_get_rules(node)) do
mesecon.activate(pos, node, rule, depth + 1)
end
return
end
@ -201,17 +201,17 @@ end
-- Deactivation
mesecon.queue:add_function("deactivate", function (pos, rulename)
node = minetest.get_node(pos)
effector = mesecon:get_effector(node.name)
effector = mesecon.get_effector(node.name)
if effector and effector.action_off then
effector.action_off(pos, node, rulename)
end
end)
function mesecon:deactivate(pos, node, rulename, depth)
function mesecon.deactivate(pos, node, rulename, depth)
if rulename == nil then
for _,rule in ipairs(mesecon:effector_get_rules(node)) do
mesecon:deactivate(pos, node, rule, depth + 1)
for _,rule in ipairs(mesecon.effector_get_rules(node)) do
mesecon.deactivate(pos, node, rule, depth + 1)
end
return
end
@ -222,17 +222,17 @@ end
-- Change
mesecon.queue:add_function("change", function (pos, rulename, changetype)
local node = minetest.get_node(pos)
local effector = mesecon:get_effector(node.name)
local effector = mesecon.get_effector(node.name)
if effector and effector.action_change then
effector.action_change(pos, node, rulename, changetype)
end
end)
function mesecon:changesignal(pos, node, rulename, newstate, depth)
function mesecon.changesignal(pos, node, rulename, newstate, depth)
if rulename == nil then
for _,rule in ipairs(mesecon:effector_get_rules(node)) do
mesecon:changesignal(pos, node, rule, newstate, depth + 1)
for _,rule in ipairs(mesecon.effector_get_rules(node)) do
mesecon.changesignal(pos, node, rule, newstate, depth + 1)
end
return
end
@ -242,84 +242,84 @@ end
-- Conductors
function mesecon:is_conductor_on(node, rulename)
local conductor = mesecon:get_conductor(node.name)
function mesecon.is_conductor_on(node, rulename)
local conductor = mesecon.get_conductor(node.name)
if conductor then
if conductor.state then
return conductor.state == mesecon.state.on
end
if conductor.states then
if not rulename then
return mesecon:getstate(node.name, conductor.states) ~= 1
return mesecon.getstate(node.name, conductor.states) ~= 1
end
local bit = mesecon:rule2bit(rulename, mesecon:conductor_get_rules(node))
local binstate = mesecon:getbinstate(node.name, conductor.states)
return mesecon:get_bit(binstate, bit)
local bit = mesecon.rule2bit(rulename, mesecon.conductor_get_rules(node))
local binstate = mesecon.getbinstate(node.name, conductor.states)
return mesecon.get_bit(binstate, bit)
end
end
return false
end
function mesecon:is_conductor_off(node, rulename)
local conductor = mesecon:get_conductor(node.name)
function mesecon.is_conductor_off(node, rulename)
local conductor = mesecon.get_conductor(node.name)
if conductor then
if conductor.state then
return conductor.state == mesecon.state.off
end
if conductor.states then
if not rulename then
return mesecon:getstate(node.name, conductor.states) == 1
return mesecon.getstate(node.name, conductor.states) == 1
end
local bit = mesecon:rule2bit(rulename, mesecon:conductor_get_rules(node))
local binstate = mesecon:getbinstate(node.name, conductor.states)
return not mesecon:get_bit(binstate, bit)
local bit = mesecon.rule2bit(rulename, mesecon.conductor_get_rules(node))
local binstate = mesecon.getbinstate(node.name, conductor.states)
return not mesecon.get_bit(binstate, bit)
end
end
return false
end
function mesecon:is_conductor(nodename)
local conductor = mesecon:get_conductor(nodename)
function mesecon.is_conductor(nodename)
local conductor = mesecon.get_conductor(nodename)
if conductor then
return true
end
return false
end
function mesecon:get_conductor_on(node_off, rulename)
local conductor = mesecon:get_conductor(node_off.name)
function mesecon.get_conductor_on(node_off, rulename)
local conductor = mesecon.get_conductor(node_off.name)
if conductor then
if conductor.onstate then
return conductor.onstate
end
if conductor.states then
local bit = mesecon:rule2bit(rulename, mesecon:conductor_get_rules(node_off))
local binstate = mesecon:getbinstate(node_off.name, conductor.states)
binstate = mesecon:set_bit(binstate, bit, "1")
local bit = mesecon.rule2bit(rulename, mesecon.conductor_get_rules(node_off))
local binstate = mesecon.getbinstate(node_off.name, conductor.states)
binstate = mesecon.set_bit(binstate, bit, "1")
return conductor.states[tonumber(binstate,2)+1]
end
end
return offstate
end
function mesecon:get_conductor_off(node_on, rulename)
local conductor = mesecon:get_conductor(node_on.name)
function mesecon.get_conductor_off(node_on, rulename)
local conductor = mesecon.get_conductor(node_on.name)
if conductor then
if conductor.offstate then
return conductor.offstate
end
if conductor.states then
local bit = mesecon:rule2bit(rulename, mesecon:conductor_get_rules(node_on))
local binstate = mesecon:getbinstate(node_on.name, conductor.states)
binstate = mesecon:set_bit(binstate, bit, "0")
local bit = mesecon.rule2bit(rulename, mesecon.conductor_get_rules(node_on))
local binstate = mesecon.getbinstate(node_on.name, conductor.states)
binstate = mesecon.set_bit(binstate, bit, "0")
return conductor.states[tonumber(binstate,2)+1]
end
end
return onstate
end
function mesecon:conductor_get_rules(node)
local conductor = mesecon:get_conductor(node.name)
function mesecon.conductor_get_rules(node)
local conductor = mesecon.get_conductor(node.name)
if conductor then
local rules = conductor.rules
if type(rules) == 'function' then
@ -333,23 +333,23 @@ end
-- some more general high-level stuff
function mesecon:is_power_on(pos, rulename)
function mesecon.is_power_on(pos, rulename)
local node = minetest.get_node(pos)
if mesecon:is_conductor_on(node, rulename) or mesecon:is_receptor_on(node.name) then
if mesecon.is_conductor_on(node, rulename) or mesecon.is_receptor_on(node.name) then
return true
end
return false
end
function mesecon:is_power_off(pos, rulename)
function mesecon.is_power_off(pos, rulename)
local node = minetest.get_node(pos)
if mesecon:is_conductor_off(node, rulename) or mesecon:is_receptor_off(node.name) then
if mesecon.is_conductor_off(node, rulename) or mesecon.is_receptor_off(node.name) then
return true
end
return false
end
function mesecon:turnon(pos, link)
function mesecon.turnon(pos, link)
local frontiers = {{pos = pos, link = link}}
local depth = 1
@ -362,31 +362,31 @@ function mesecon:turnon(pos, link)
mesecon.queue:add_action(f.pos, "turnon", {link}, nil, true)
end
if mesecon:is_conductor_off(node, f.link) then
local rules = mesecon:conductor_get_rules(node)
if mesecon.is_conductor_off(node, f.link) then
local rules = mesecon.conductor_get_rules(node)
minetest.swap_node(f.pos, {name = mesecon:get_conductor_on(node, f.link),
minetest.swap_node(f.pos, {name = mesecon.get_conductor_on(node, f.link),
param2 = node.param2})
-- call turnon on neighbors: normal rules
for _, r in ipairs(mesecon:rule2meta(f.link, rules)) do
local np = mesecon:addPosRule(f.pos, r)
for _, r in ipairs(mesecon.rule2meta(f.link, rules)) do
local np = mesecon.addPosRule(f.pos, r)
-- area not loaded, postpone action
if not minetest.get_node_or_nil(np) then
mesecon.queue:add_action(np, "turnon", {rulename},
nil, true)
else
local links = mesecon:rules_link_rule_all(f.pos, r)
local links = mesecon.rules_link_rule_all(f.pos, r)
for _, l in ipairs(links) do
table.insert(frontiers, {pos = np, link = l})
end
end
end
elseif mesecon:is_effector(node.name) then
mesecon:changesignal(f.pos, node, f.link, mesecon.state.on, depth)
if mesecon:is_effector_off(node.name) then
mesecon:activate(f.pos, node, f.link, depth)
elseif mesecon.is_effector(node.name) then
mesecon.changesignal(f.pos, node, f.link, mesecon.state.on, depth)
if mesecon.is_effector_off(node.name) then
mesecon.activate(f.pos, node, f.link, depth)
end
end
depth = depth + 1
@ -394,10 +394,10 @@ function mesecon:turnon(pos, link)
end
mesecon.queue:add_function("turnon", function (pos, rulename, recdepth)
mesecon:turnon(pos, rulename, recdepth)
mesecon.turnon(pos, rulename, recdepth)
end)
function mesecon:turnoff(pos, link)
function mesecon.turnoff(pos, link)
local frontiers = {{pos = pos, link = link}}
local depth = 1
@ -410,31 +410,31 @@ function mesecon:turnoff(pos, link)
mesecon.queue:add_action(f.pos, "turnoff", {link}, nil, true)
end
if mesecon:is_conductor_on(node, f.link) then
local rules = mesecon:conductor_get_rules(node)
if mesecon.is_conductor_on(node, f.link) then
local rules = mesecon.conductor_get_rules(node)
minetest.swap_node(f.pos, {name = mesecon:get_conductor_off(node, f.link),
minetest.swap_node(f.pos, {name = mesecon.get_conductor_off(node, f.link),
param2 = node.param2})
-- call turnoff on neighbors: normal rules
for _, r in ipairs(mesecon:rule2meta(f.link, rules)) do
local np = mesecon:addPosRule(f.pos, r)
for _, r in ipairs(mesecon.rule2meta(f.link, rules)) do
local np = mesecon.addPosRule(f.pos, r)
-- area not loaded, postpone action
if not minetest.get_node_or_nil(np) then
mesecon.queue:add_action(np, "turnoff", {rulename},
nil, true)
else
local links = mesecon:rules_link_rule_all(f.pos, r)
local links = mesecon.rules_link_rule_all(f.pos, r)
for _, l in ipairs(links) do
table.insert(frontiers, {pos = np, link = l})
end
end
end
elseif mesecon:is_effector(node.name) then
mesecon:changesignal(f.pos, node, f.link, mesecon.state.off, depth)
if mesecon:is_effector_on(node.name) and not mesecon:is_powered(f.pos) then
mesecon:deactivate(f.pos, node, f.link, depth)
elseif mesecon.is_effector(node.name) then
mesecon.changesignal(f.pos, node, f.link, mesecon.state.off, depth)
if mesecon.is_effector_on(node.name) and not mesecon.is_powered(f.pos) then
mesecon.deactivate(f.pos, node, f.link, depth)
end
end
depth = depth + 1
@ -442,22 +442,22 @@ function mesecon:turnoff(pos, link)
end
mesecon.queue:add_function("turnoff", function (pos, rulename, recdepth)
mesecon:turnoff(pos, rulename, recdepth)
mesecon.turnoff(pos, rulename, recdepth)
end)
function mesecon:connected_to_receptor(pos, rulename)
function mesecon.connected_to_receptor(pos, rulename)
local node = minetest.get_node(pos)
-- Check if conductors around are connected
local rules = mesecon:get_any_inputrules(node)
local rules = mesecon.get_any_inputrules(node)
if not rules then return false end
for _, rule in ipairs(mesecon:rule2meta(rulename, rules)) do
local rulenames = mesecon:rules_link_rule_all_inverted(pos, rule)
for _, rule in ipairs(mesecon.rule2meta(rulename, rules)) do
local rulenames = mesecon.rules_link_rule_all_inverted(pos, rule)
for _, rname in ipairs(rulenames) do
local np = mesecon:addPosRule(pos, rname)
if mesecon:find_receptor_on(np, {}, mesecon:invertRule(rname)) then
local np = mesecon.addPosRule(pos, rname)
if mesecon.find_receptor_on(np, {}, mesecon.invertRule(rname)) then
return true
end
end
@ -466,33 +466,34 @@ function mesecon:connected_to_receptor(pos, rulename)
return false
end
function mesecon:find_receptor_on(pos, checked, rulename, recdepth)
function mesecon.find_receptor_on(pos, checked, rulename, recdepth)
recdepth = recdepth or 2
if (recdepth > STACK_SIZE) then return true end -- ignore request
local node = minetest.get_node(pos)
if mesecon:is_receptor_on(node.name) then
if mesecon.is_receptor_on(node.name) then
-- add current position to checked
table.insert(checked, {x=pos.x, y=pos.y, z=pos.z})
return true
end
if mesecon:is_conductor(node.name) then
local rules = mesecon:conductor_get_rules(node)
local metaindex = mesecon:rule2metaindex(rulename, rules)
if mesecon.is_conductor(node.name) then
local rules = mesecon.conductor_get_rules(node)
local metaindex = mesecon.rule2metaindex(rulename, rules)
-- find out if node has already been checked (to prevent from endless loop)
for _, cp in ipairs(checked) do
if mesecon:cmpPos(cp, pos) and cp.metaindex == metaindex then
if mesecon.cmpPos(cp, pos) and cp.metaindex == metaindex then
return false, checked
end
end
-- add current position to checked
table.insert(checked, {x=pos.x, y=pos.y, z=pos.z, metaindex = metaindex})
for _, rule in ipairs(mesecon:rule2meta(rulename, rules)) do
local rulenames = mesecon:rules_link_rule_all_inverted(pos, rule)
for _, rule in ipairs(mesecon.rule2meta(rulename, rules)) do
local rulenames = mesecon.rules_link_rule_all_inverted(pos, rule)
for _, rname in ipairs(rulenames) do
local np = mesecon:addPosRule(pos, rname)
if mesecon:find_receptor_on(np, checked, mesecon:invertRule(rname), recdepth + 1) then
local np = mesecon.addPosRule(pos, rname)
if mesecon.find_receptor_on(np, checked, mesecon.invertRule(rname),
recdepth + 1) then
return true
end
end
@ -500,7 +501,7 @@ function mesecon:find_receptor_on(pos, checked, rulename, recdepth)
else
-- find out if node has already been checked (to prevent from endless loop)
for _, cp in ipairs(checked) do
if mesecon:cmpPos(cp, pos) then
if mesecon.cmpPos(cp, pos) then
return false, checked
end
end
@ -510,22 +511,23 @@ function mesecon:find_receptor_on(pos, checked, rulename, recdepth)
return false
end
function mesecon:rules_link(output, input, dug_outputrules) --output/input are positions (outputrules optional, used if node has been dug), second return value: the name of the affected input rule
function mesecon.rules_link(output, input, dug_outputrules) --output/input are positions (outputrules optional, used if node has been dug), second return value: the name of the affected input rule
local outputnode = minetest.get_node(output)
local inputnode = minetest.get_node(input)
local outputrules = dug_outputrules or mesecon:get_any_outputrules (outputnode)
local inputrules = mesecon:get_any_inputrules (inputnode)
local outputrules = dug_outputrules or mesecon.get_any_outputrules (outputnode)
local inputrules = mesecon.get_any_inputrules (inputnode)
if not outputrules or not inputrules then
return
end
for _, outputrule in ipairs(mesecon:flattenrules(outputrules)) do
for _, outputrule in ipairs(mesecon.flattenrules(outputrules)) do
-- Check if output sends to input
if mesecon:cmpPos(mesecon:addPosRule(output, outputrule), input) then
for _, inputrule in ipairs(mesecon:flattenrules(inputrules)) do
if mesecon.cmpPos(mesecon.addPosRule(output, outputrule), input) then
for _, inputrule in ipairs(mesecon.flattenrules(inputrules)) do
-- Check if input accepts from output
if mesecon:cmpPos(mesecon:addPosRule(input, inputrule), output) then
if inputrule.sx == nil or outputrule.sx == nil or mesecon:cmpSpecial(inputrule, outputrule) then
if mesecon.cmpPos(mesecon.addPosRule(input, inputrule), output) then
if inputrule.sx == nil or outputrule.sx == nil
or mesecon.cmpSpecial(inputrule, outputrule) then
return true, inputrule
end
end
@ -535,19 +537,20 @@ function mesecon:rules_link(output, input, dug_outputrules) --output/input are p
return false
end
function mesecon:rules_link_rule_all(output, rule)
local input = mesecon:addPosRule(output, rule)
function mesecon.rules_link_rule_all(output, rule)
local input = mesecon.addPosRule(output, rule)
local inputnode = minetest.get_node(input)
local inputrules = mesecon:get_any_inputrules (inputnode)
local inputrules = mesecon.get_any_inputrules (inputnode)
if not inputrules then
return {}
end
local rules = {}
for _, inputrule in ipairs(mesecon:flattenrules(inputrules)) do
for _, inputrule in ipairs(mesecon.flattenrules(inputrules)) do
-- Check if input accepts from output
if mesecon:cmpPos(mesecon:addPosRule(input, inputrule), output) then
if inputrule.sx == nil or rule.sx == nil or mesecon:cmpSpecial(inputrule, rule) then
if mesecon.cmpPos(mesecon.addPosRule(input, inputrule), output) then
if inputrule.sx == nil or rule.sx == nil
or mesecon.cmpSpecial(inputrule, rule) then
rules[#rules+1] = inputrule
end
end
@ -555,56 +558,58 @@ function mesecon:rules_link_rule_all(output, rule)
return rules
end
function mesecon:rules_link_rule_all_inverted(input, rule)
--local irule = mesecon:invertRule(rule)
local output = mesecon:addPosRule(input, rule)
function mesecon.rules_link_rule_all_inverted(input, rule)
--local irule = mesecon.invertRule(rule)
local output = mesecon.addPosRule(input, rule)
local outputnode = minetest.get_node(output)
local outputrules = mesecon:get_any_outputrules (outputnode)
local outputrules = mesecon.get_any_outputrules (outputnode)
if not outputrules then
return {}
end
local rules = {}
for _, outputrule in ipairs(mesecon:flattenrules(outputrules)) do
if mesecon:cmpPos(mesecon:addPosRule(output, outputrule), input) then
if outputrule.sx == nil or rule.sx == nil or mesecon:cmpSpecial(outputrule, rule) then
rules[#rules+1] = mesecon:invertRule(outputrule)
for _, outputrule in ipairs(mesecon.flattenrules(outputrules)) do
if mesecon.cmpPos(mesecon.addPosRule(output, outputrule), input) then
if outputrule.sx == nil or rule.sx == nil
or mesecon.cmpSpecial(outputrule, rule) then
rules[#rules+1] = mesecon.invertRule(outputrule)
end
end
end
return rules
end
function mesecon:rules_link_anydir(pos1, pos2)
return mesecon:rules_link(pos1, pos2) or mesecon:rules_link(pos2, pos1)
function mesecon.rules_link_anydir(pos1, pos2)
return mesecon.rules_link(pos1, pos2) or mesecon.rules_link(pos2, pos1)
end
function mesecon:is_powered(pos, rule)
function mesecon.is_powered(pos, rule)
local node = minetest.get_node(pos)
local rules = mesecon:get_any_inputrules(node)
local rules = mesecon.get_any_inputrules(node)
if not rules then return false end
-- List of nodes that send out power to pos
local sourcepos = {}
if not rule then
for _, rule in ipairs(mesecon:flattenrules(rules)) do
local rulenames = mesecon:rules_link_rule_all_inverted(pos, rule)
for _, rule in ipairs(mesecon.flattenrules(rules)) do
local rulenames = mesecon.rules_link_rule_all_inverted(pos, rule)
for _, rname in ipairs(rulenames) do
local np = mesecon:addPosRule(pos, rname)
local np = mesecon.addPosRule(pos, rname)
local nn = minetest.get_node(np)
if (mesecon:is_conductor_on (nn, mesecon:invertRule(rname))
or mesecon:is_receptor_on (nn.name)) then
if (mesecon.is_conductor_on (nn, mesecon.invertRule(rname))
or mesecon.is_receptor_on (nn.name)) then
table.insert(sourcepos, np)
end
end
end
else
local rulenames = mesecon:rules_link_rule_all_inverted(pos, rule)
local rulenames = mesecon.rules_link_rule_all_inverted(pos, rule)
for _, rname in ipairs(rulenames) do
local np = mesecon:addPosRule(pos, rname)
local np = mesecon.addPosRule(pos, rname)
local nn = minetest.get_node(np)
if (mesecon:is_conductor_on (nn, mesecon:invertRule(rname)) or mesecon:is_receptor_on (nn.name)) then
if (mesecon.is_conductor_on (nn, mesecon.invertRule(rname))
or mesecon.is_receptor_on (nn.name)) then
sourcepos.insert(np)
end
end
@ -616,7 +621,7 @@ function mesecon:is_powered(pos, rule)
end
--Rules rotation Functions:
function mesecon:rotate_rules_right(rules)
function mesecon.rotate_rules_right(rules)
local nr = {}
for i, rule in ipairs(rules) do
if rule.sx then
@ -637,7 +642,7 @@ function mesecon:rotate_rules_right(rules)
return nr
end
function mesecon:rotate_rules_left(rules)
function mesecon.rotate_rules_left(rules)
local nr = {}
for i, rule in ipairs(rules) do
if rule.sx then
@ -658,7 +663,7 @@ function mesecon:rotate_rules_left(rules)
return nr
end
function mesecon:rotate_rules_down(rules)
function mesecon.rotate_rules_down(rules)
local nr = {}
for i, rule in ipairs(rules) do
if rule.sx then
@ -679,7 +684,7 @@ function mesecon:rotate_rules_down(rules)
return nr
end
function mesecon:rotate_rules_up(rules)
function mesecon.rotate_rules_up(rules)
local nr = {}
for i, rule in ipairs(rules) do
if rule.sx then

33
mesecons/legacy.lua
View File

@ -1,32 +1,7 @@
minetest.swap_node = minetest.swap_node or function(pos, node)
local data = minetest.get_meta(pos):to_table()
minetest.add_node(pos, node)
minetest.get_meta(pos):from_table(data)
function mesecon:receptor_on(pos, rules)
mesecon.receptor_on(pos, rules)
end
local rules = {}
rules.a = {x = -1, y = 0, z = 0, name="A"}
rules.b = {x = 0, y = 0, z = 1, name="B"}
rules.c = {x = 1, y = 0, z = 0, name="C"}
rules.d = {x = 0, y = 0, z = -1, name="D"}
function legacy_update_ports(pos)
local meta = minetest.get_meta(pos)
L = {
a = mesecon:is_power_on(mesecon:addPosRule(pos, rules.a),
mesecon:invertRule(rules.a)) and
mesecon:rules_link(mesecon:addPosRule(pos, rules.a), pos),
b = mesecon:is_power_on(mesecon:addPosRule(pos, rules.b),
mesecon:invertRule(rules.b)) and
mesecon:rules_link(mesecon:addPosRule(pos, rules.b), pos),
c = mesecon:is_power_on(mesecon:addPosRule(pos, rules.c),
mesecon:invertRule(rules.c)) and
mesecon:rules_link(mesecon:addPosRule(pos, rules.c), pos),
d = mesecon:is_power_on(mesecon:addPosRule(pos, rules.d),
mesecon:invertRule(rules.d)) and
mesecon:rules_link(mesecon:addPosRule(pos, rules.d), pos),
}
local n = (L.a and 1 or 0) + (L.b and 2 or 0) + (L.c and 4 or 0) + (L.d and 8 or 0) + 1
meta:set_int("real_portstates", n)
return L
function mesecon:receptor_off(pos, rules)
mesecon.receptor_off(pos, rules)
end

6
mesecons/presets.lua
View File

@ -35,11 +35,11 @@ mesecon.rules.flat =
mesecon.rules.buttonlike_get = function(node)
local rules = mesecon.rules.buttonlike
if node.param2 == 2 then
rules=mesecon:rotate_rules_left(rules)
rules=mesecon.rotate_rules_left(rules)
elseif node.param2 == 3 then
rules=mesecon:rotate_rules_right(mesecon:rotate_rules_right(rules))
rules=mesecon.rotate_rules_right(mesecon.rotate_rules_right(rules))
elseif node.param2 == 0 then
rules=mesecon:rotate_rules_right(rules)
rules=mesecon.rotate_rules_right(rules)
end
return rules
end

36
mesecons/services.lua
View File

@ -4,44 +4,44 @@ mesecon.on_placenode = function (pos, node)
mesecon.update_autoconnect(pos, node)
-- Receptors: Send on signal when active
if mesecon:is_receptor_on(node.name) then
mesecon:receptor_on(pos, mesecon:receptor_get_rules(node))
if mesecon.is_receptor_on(node.name) then
mesecon.receptor_on(pos, mesecon.receptor_get_rules(node))
end
-- Conductors: Send turnon signal when powered or replace by respective offstate conductor
-- if placed conductor is an onstate one
if mesecon:is_conductor(node.name) then
local sources = mesecon:is_powered(pos)
if mesecon.is_conductor(node.name) then
local sources = mesecon.is_powered(pos)
if sources then
-- also call receptor_on if itself is powered already, so that neighboring
-- conductors will be activated (when pushing an on-conductor with a piston)
for _, s in ipairs(sources) do
local rule = {x = pos.x - s.x, y = pos.y - s.y, z = pos.z - s.z}
mesecon:turnon(pos, rule)
mesecon.turnon(pos, rule)
end
--mesecon:receptor_on (pos, mesecon:conductor_get_rules(node))
elseif mesecon:is_conductor_on(node) then
minetest.swap_node(pos, {name = mesecon:get_conductor_off(node)})
--mesecon.receptor_on (pos, mesecon.conductor_get_rules(node))
elseif mesecon.is_conductor_on(node) then
minetest.swap_node(pos, {name = mesecon.get_conductor_off(node)})
end
end
-- Effectors: Send changesignal and activate or deactivate
if mesecon:is_effector(node.name) then
if mesecon:is_powered(pos) then
mesecon:changesignal(pos, node, mesecon:effector_get_rules(node), "on", 1)
mesecon:activate(pos, node, nil, 1)
if mesecon.is_effector(node.name) then
if mesecon.is_powered(pos) then
mesecon.changesignal(pos, node, mesecon.effector_get_rules(node), "on", 1)
mesecon.activate(pos, node, nil, 1)
else
mesecon:changesignal(pos, node, mesecon:effector_get_rules(node), "off", 1)
mesecon:deactivate(pos, node, nil, 1)
mesecon.changesignal(pos, node, mesecon.effector_get_rules(node), "off", 1)
mesecon.deactivate(pos, node, nil, 1)
end
end
end
mesecon.on_dignode = function (pos, node)
if mesecon:is_conductor_on(node) then
mesecon:receptor_off(pos, mesecon:conductor_get_rules(node))
elseif mesecon:is_receptor_on(node.name) then
mesecon:receptor_off(pos, mesecon:receptor_get_rules(node))
if mesecon.is_conductor_on(node) then
mesecon.receptor_off(pos, mesecon.conductor_get_rules(node))
elseif mesecon.is_receptor_on(node.name) then
mesecon.receptor_off(pos, mesecon.receptor_get_rules(node))
end
mesecon.queue:add_action(pos, "update_autoconnect", {node})
end

64
mesecons/util.lua
View File

@ -1,4 +1,4 @@
function mesecon:move_node(pos, newpos)
function mesecon.move_node(pos, newpos)
local node = minetest.get_node(pos)
local meta = minetest.get_meta(pos):to_table()
minetest.remove_node(pos)
@ -7,18 +7,18 @@ function mesecon:move_node(pos, newpos)
end
--[[ new functions:
mesecon:flattenrules(allrules)
mesecon:rule2bit(findrule, allrules)
mesecon:rule2meta(findrule, allrules)
mesecon.flattenrules(allrules)
mesecon.rule2bit(findrule, allrules)
mesecon.rule2meta(findrule, allrules)
dec2bin(n)
mesecon:getstate(nodename, states)
mesecon:getbinstate(nodename, states)
mesecon:get_bit(binary, bit)
mesecon:set_bit(binary, bit, value)
mesecon:invertRule(r)
mesecon.getstate(nodename, states)
mesecon.getbinstate(nodename, states)
mesecon.get_bit(binary, bit)
mesecon.set_bit(binary, bit, value)
mesecon.invertRule(r)
--]]
function mesecon:flattenrules(allrules)
function mesecon.flattenrules(allrules)
--[[
{
{
@ -53,7 +53,7 @@ function mesecon:flattenrules(allrules)
--]]
end
function mesecon:rule2bit(findrule, allrules)
function mesecon.rule2bit(findrule, allrules)
--get the bit of the metarule the rule is in, or bit 1
if (allrules[1] and
allrules[1].x) or
@ -62,14 +62,14 @@ function mesecon:rule2bit(findrule, allrules)
end
for m,metarule in ipairs( allrules) do
for _, rule in ipairs(metarule ) do
if mesecon:cmpPos(findrule, rule) and mesecon:cmpSpecial(findrule, rule) then
if mesecon.cmpPos(findrule, rule) and mesecon.cmpSpecial(findrule, rule) then
return m
end
end
end
end
function mesecon:rule2metaindex(findrule, allrules)
function mesecon.rule2metaindex(findrule, allrules)
--get the metarule the rule is in, or allrules
if allrules[1].x then
@ -77,20 +77,20 @@ function mesecon:rule2metaindex(findrule, allrules)
end
if not(findrule) then
return mesecon:flattenrules(allrules)
return mesecon.flattenrules(allrules)
end
for m, metarule in ipairs( allrules) do
for _, rule in ipairs(metarule ) do
if mesecon:cmpPos(findrule, rule) and mesecon:cmpSpecial(findrule, rule) then
if mesecon.cmpPos(findrule, rule) and mesecon.cmpSpecial(findrule, rule) then
return m
end
end
end
end
function mesecon:rule2meta(findrule, allrules)
local index = mesecon:rule2metaindex(findrule, allrules)
function mesecon.rule2meta(findrule, allrules)
local index = mesecon.rule2metaindex(findrule, allrules)
if index == nil then
if allrules[1].x then
return allrules
@ -119,7 +119,7 @@ else
end
end
function mesecon:getstate(nodename, states)
function mesecon.getstate(nodename, states)
for state, name in ipairs(states) do
if name == nodename then
return state
@ -128,23 +128,23 @@ function mesecon:getstate(nodename, states)
error(nodename.." doesn't mention itself in "..dump(states))
end
function mesecon:getbinstate(nodename, states)
return dec2bin(mesecon:getstate(nodename, states)-1)
function mesecon.getbinstate(nodename, states)
return dec2bin(mesecon.getstate(nodename, states)-1)
end
function mesecon:get_bit(binary,bit)
function mesecon.get_bit(binary,bit)
bit = bit or 1
local c = binary:len()-(bit-1)
return binary:sub(c,c) == "1"
end
function mesecon:set_bit(binary,bit,value)
function mesecon.set_bit(binary,bit,value)
if value == "1" then
if not mesecon:get_bit(binary,bit) then
if not mesecon.get_bit(binary,bit) then
return dec2bin(tonumber(binary,2)+math.pow(2,bit-1))
end
elseif value == "0" then
if mesecon:get_bit(binary,bit) then
if mesecon.get_bit(binary,bit) then
return dec2bin(tonumber(binary,2)-math.pow(2,bit-1))
end
end
@ -152,29 +152,29 @@ function mesecon:set_bit(binary,bit,value)
end
function mesecon:invertRule(r)
function mesecon.invertRule(r)
return {x = -r.x, y = -r.y, z = -r.z, sx = r.sx, sy = r.sy, sz = r.sz}
end
function mesecon:addPosRule(p, r)
function mesecon.addPosRule(p, r)
return {x = p.x + r.x, y = p.y + r.y, z = p.z + r.z}
end
function mesecon:cmpPos(p1, p2)
function mesecon.cmpPos(p1, p2)
return (p1.x == p2.x and p1.y == p2.y and p1.z == p2.z)
end
function mesecon:cmpSpecial(r1, r2)
function mesecon.cmpSpecial(r1, r2)
return (r1.sx == r2.sx and r1.sy == r2.sy and r1.sz == r2.sz)
end
function mesecon:tablecopy(table) -- deep table copy
function mesecon.tablecopy(table) -- deep table copy
if type(table) ~= "table" then return table end -- no need to copy
local newtable = {}
for idx, item in pairs(table) do
if type(item) == "table" then
newtable[idx] = mesecon:tablecopy(item)
newtable[idx] = mesecon.tablecopy(item)
else
newtable[idx] = item
end
@ -183,12 +183,12 @@ function mesecon:tablecopy(table) -- deep table copy
return newtable
end
function mesecon:cmpAny(t1, t2)
function mesecon.cmpAny(t1, t2)
if type(t1) ~= type(t2) then return false end
if type(t1) ~= "table" and type(t2) ~= "table" then return t1 == t2 end
for i, e in pairs(t1) do
if not mesecon:cmpAny(e, t2[i]) then return false end
if not mesecon.cmpAny(e, t2[i]) then return false end
end
return true

18
mesecons/wires.lua
View File

@ -18,12 +18,12 @@ local wire_getconnect = function (from_pos, self_pos)
if (minetest.registered_nodes[node.name].mesecon_wire) then
rules = mesecon.rules.default
else
rules = mesecon:get_any_inputrules(node) or {}
mesecon.mergetable(mesecon:get_any_outputrules(node) or {}, rules)
rules = mesecon.get_any_inputrules(node) or {}
mesecon.mergetable(mesecon.get_any_outputrules(node) or {}, rules)
end
for _, r in ipairs(mesecon:flattenrules(rules)) do
if (mesecon:cmpPos(mesecon:addPosRule(self_pos, r), from_pos)) then
for _, r in ipairs(mesecon.flattenrules(rules)) do
if (mesecon.cmpPos(mesecon.addPosRule(self_pos, r), from_pos)) then
return true
end
end
@ -36,7 +36,7 @@ local wire_updateconnect = function (pos)
local connections = {}
for _, r in ipairs(mesecon.rules.default) do
if wire_getconnect(pos, mesecon:addPosRule(pos, r)) then
if wire_getconnect(pos, mesecon.addPosRule(pos, r)) then
table.insert(connections, r)
end
end
@ -79,13 +79,13 @@ local update_on_place_dig = function (pos, node)
and minetest.registered_nodes[node.name].mesecon_wire then
rules = mesecon.rules.default
else
rules = mesecon:get_any_inputrules(node) or {}
mesecon.mergetable(mesecon:get_any_outputrules(node) or {}, rules)
rules = mesecon.get_any_inputrules(node) or {}
mesecon.mergetable(mesecon.get_any_outputrules(node) or {}, rules)
end
if (not rules) then return end
for _, r in ipairs(mesecon:flattenrules(rules)) do
local np = mesecon:addPosRule(pos, r)
for _, r in ipairs(mesecon.flattenrules(rules)) do
local np = mesecon.addPosRule(pos, r)
if minetest.registered_nodes[minetest.get_node(np).name]
and minetest.registered_nodes[minetest.get_node(np).name].mesecon_wire then
wire_updateconnect(np)