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mesecons
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mesecons/mesecons/internal.lua

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-- Internal.lua - The core of mesecons
--
-- For more practical developer resources see http://mesecons.net/developers.php
--
-- 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
-- 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)
-- 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)
-- 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
-- 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)
-- 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, link) --> link is the input rule that caused calling turnon, turns on every connected node, iterative
-- mesecon.turnoff(pos, link) --> link is the input rule that caused calling turnoff, turns off every connected node, iterative
-- mesecon.connected_to_receptor(pos, link) --> Returns true if pos is connected to a receptor directly or via conductors, iterative
-- 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 helpers
-- 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)
if minetest.registered_nodes[nodename]
and minetest.registered_nodes[nodename].mesecons
and minetest.registered_nodes[nodename].mesecons.effector then
return minetest.registered_nodes[nodename].mesecons.effector
end
end
function mesecon.get_receptor(nodename)
if minetest.registered_nodes[nodename]
and minetest.registered_nodes[nodename].mesecons
and minetest.registered_nodes[nodename].mesecons.receptor then
return minetest.registered_nodes[nodename].mesecons.receptor
end
end
function mesecon.get_conductor(nodename)
if minetest.registered_nodes[nodename]
and minetest.registered_nodes[nodename].mesecons
and minetest.registered_nodes[nodename].mesecons.conductor then
return minetest.registered_nodes[nodename].mesecons.conductor
end
end
function mesecon.get_any_outputrules (node)
if not node then return nil end
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
end
function mesecon.get_any_inputrules (node)
if not node then return nil end
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
end
function mesecon.get_any_rules (node)
return mesecon.mergetable(mesecon.get_any_inputrules(node) or {},
mesecon.get_any_outputrules(node) or {})
end
-- Receptors
-- Nodes that can power mesecons
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)
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)
if receptor then
return true
end
return false
end
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
return rules(node)
elseif rules then
return rules
end
end
return mesecon.rules.default
end
-- Effectors
-- Nodes that can be powered by mesecons
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)
if effector and effector.action_on then
return true
end
return false
end
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)
if effector then
local rules = effector.rules
if type(rules) == 'function' then
return rules(node)
elseif rules then
return rules
end
end
return mesecon.rules.default
end
-- #######################
-- # Signals (effectors) #
-- #######################
-- Activation:
mesecon.queue:add_function("activate", function (pos, rulename)
local node = mesecon.get_node_force(pos)
if not node then return end
local 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)
if rulename == nil then
for _,rule in ipairs(mesecon.effector_get_rules(node)) do
mesecon.activate(pos, node, rule, depth + 1)
end
return
end
mesecon.queue:add_action(pos, "activate", {rulename}, nil, rulename, 1 / depth)
end
-- Deactivation
mesecon.queue:add_function("deactivate", function (pos, rulename)
local node = mesecon.get_node_force(pos)
if not node then return end
local 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)
if rulename == nil then
for _,rule in ipairs(mesecon.effector_get_rules(node)) do
mesecon.deactivate(pos, node, rule, depth + 1)
end
return
end
mesecon.queue:add_action(pos, "deactivate", {rulename}, nil, rulename, 1 / depth)
end
-- Change
mesecon.queue:add_function("change", function (pos, rulename, changetype)
local node = mesecon.get_node_force(pos)
if not node then return end
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)
if rulename == nil then
for _,rule in ipairs(mesecon.effector_get_rules(node)) do
mesecon.changesignal(pos, node, rule, newstate, depth + 1)
end
return
end
-- Include "change" in overwritecheck so that it cannot be overwritten
-- by "active" / "deactivate" that will be called upon the node at the same time.
local overwritecheck = {"change", rulename}
mesecon.queue:add_action(pos, "change", {rulename, newstate}, nil, overwritecheck, 1 / depth)
end
-- Conductors
function mesecon.is_conductor_on(node, rulename)
if not node then return false end
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
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)
end
end
return false
end
function mesecon.is_conductor_off(node, rulename)
if not node then return false end
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
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)
end
end
return false
end
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)
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")
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)
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")
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)
if conductor then
local rules = conductor.rules
if type(rules) == 'function' then
return rules(node)
elseif rules then
return rules
end
end
return mesecon.rules.default
end
-- some more general high-level stuff
function mesecon.is_power_on(pos, rulename)
local node = mesecon.get_node_force(pos)
if node and (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)
local node = mesecon.get_node_force(pos)
if node and (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)
local frontiers = {{pos = pos, link = link}}
local depth = 1
while frontiers[depth] do
local f = frontiers[depth]
local node = mesecon.get_node_force(f.pos)
-- area not loaded, postpone action
if not node then
mesecon.queue:add_action(f.pos, "turnon", {link}, nil, true)
elseif 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),
param2 = node.param2})
-- call turnon on neighbors: normal rules
for _, r in ipairs(mesecon.rule2meta(f.link, rules)) do
local np = vector.add(f.pos, r)
-- area not loaded, postpone action
if not mesecon.get_node_force(np) then
mesecon.queue:add_action(np, "turnon", {rulename},
nil, true)
else
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)
end
end
depth = depth + 1
end
end
mesecon.queue:add_function("turnon", function (pos, rulename, recdepth)
mesecon.turnon(pos, rulename, recdepth)
end)
function mesecon.turnoff(pos, link)
local frontiers = {{pos = pos, link = link}}
local depth = 1
while frontiers[depth] do
local f = frontiers[depth]
local node = mesecon.get_node_force(f.pos)
-- area not loaded, postpone action
if not node then
mesecon.queue:add_action(f.pos, "turnoff", {link}, nil, true)
elseif 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),
param2 = node.param2})
-- call turnoff on neighbors: normal rules
for _, r in ipairs(mesecon.rule2meta(f.link, rules)) do
local np = vector.add(f.pos, r)
-- area not loaded, postpone action
if not mesecon.get_node_force(np) then
mesecon.queue:add_action(np, "turnoff", {rulename},
nil, true)
else
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)
end
end
depth = depth + 1
end
end
mesecon.queue:add_function("turnoff", function (pos, rulename, recdepth)
mesecon.turnoff(pos, rulename, recdepth)
end)
function mesecon.connected_to_receptor(pos, link)
local node = mesecon.get_node_force(pos)
if not node then return false end
-- Check if conductors around are connected
local rules = mesecon.get_any_inputrules(node)
if not rules then return false end
for _, rule in ipairs(mesecon.rule2meta(link, rules)) do
local links = mesecon.rules_link_rule_all_inverted(pos, rule)
for _, l in ipairs(links) do
local np = vector.add(pos, l)
if mesecon.find_receptor_on(np, mesecon.invertRule(l)) then
return true
end
end
end
return false
end
function mesecon.find_receptor_on(pos, link)
local frontiers = {{pos = pos, link = link}}
local checked = {}
-- List of positions that have been searched for onstate receptors
local depth = 1
while frontiers[depth] do
local f = frontiers[depth]
local node = mesecon.get_node_force(f.pos)
if not node then return false end
if mesecon.is_receptor_on(node.name) then return true end
if mesecon.is_conductor_on(node, f.link) then
local rules = mesecon.conductor_get_rules(node)
-- call turnoff on neighbors: normal rules
for _, r in ipairs(mesecon.rule2meta(f.link, rules)) do
local np = vector.add(f.pos, r)
local links = mesecon.rules_link_rule_all_inverted(f.pos, r)
for _, l in ipairs(links) do
local checkedstring = np.x..np.y..np.z..l.x..l.y..l.z
if not checked[checkedstring] then
table.insert(frontiers, {pos = np, link = l})
checked[checkedstring] = true
end
end
end
end
depth = depth + 1
end
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
local outputnode = mesecon.get_node_force(output)
local inputnode = mesecon.get_node_force(input)
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
-- Check if output sends to input
if vector.equals(vector.add(output, outputrule), input) then
for _, inputrule in ipairs(mesecon.flattenrules(inputrules)) do
-- Check if input accepts from output
if vector.equals(vector.add(input, inputrule), output) then
return true, inputrule
end
end
end
end
return false
end
function mesecon.rules_link_rule_all(output, rule)
local input = vector.add(output, rule)
local inputnode = mesecon.get_node_force(input)
local inputrules = mesecon.get_any_inputrules (inputnode)
if not inputrules then
return {}
end
local rules = {}
for _, inputrule in ipairs(mesecon.flattenrules(inputrules)) do
-- Check if input accepts from output
if vector.equals(vector.add(input, inputrule), output) then
table.insert(rules, inputrule)
end
end
return rules
end
function mesecon.rules_link_rule_all_inverted(input, rule)
--local irule = mesecon.invertRule(rule)
local output = vector.add(input, rule)
local outputnode = mesecon.get_node_force(output)
local outputrules = mesecon.get_any_outputrules (outputnode)
if not outputrules then
return {}
end
local rules = {}
for _, outputrule in ipairs(mesecon.flattenrules(outputrules)) do
if vector.equals(vector.add(output, outputrule), input) then
table.insert(rules, mesecon.invertRule(outputrule))
end
end
return rules
end
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)
local node = mesecon.get_node_force(pos)
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 _, rname in ipairs(rulenames) do
local np = vector.add(pos, rname)
local nn = mesecon.get_node_force(np)
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)
for _, rname in ipairs(rulenames) do
local np = vector.add(pos, rname)
local nn = mesecon.get_node_force(np)
if (mesecon.is_conductor_on (nn, mesecon.invertRule(rname))
or mesecon.is_receptor_on (nn.name)) then
table.insert(sourcepos, np)
end
end
end
-- Return FALSE if not powered, return list of sources if is powered
if (#sourcepos == 0) then return false
else return sourcepos end
end
--Rules rotation Functions:
function mesecon.rotate_rules_right(rules)
local nr = {}
for i, rule in ipairs(rules) do
table.insert(nr, {
x = -rule.z,
y = rule.y,
z = rule.x,
name = rule.name})
end
return nr
end
function mesecon.rotate_rules_left(rules)
local nr = {}
for i, rule in ipairs(rules) do
table.insert(nr, {
x = rule.z,
y = rule.y,
z = -rule.x,
name = rule.name})
end
return nr
end
function mesecon.rotate_rules_down(rules)
local nr = {}
for i, rule in ipairs(rules) do
table.insert(nr, {
x = -rule.y,
y = rule.x,
z = rule.z,
name = rule.name})
end
return nr
end
function mesecon.rotate_rules_up(rules)
local nr = {}
for i, rule in ipairs(rules) do
table.insert(nr, {
x = rule.y,
y = -rule.x,
z = rule.z,
name = rule.name})
end
return nr
end
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