Fix crash in comparitor code, add input rule processing

This commit is contained in:
teknomunk 2024-04-21 22:50:40 +00:00
parent 74d3fff5ff
commit 1da30698d7
2 changed files with 138 additions and 27 deletions

View file

@ -100,6 +100,8 @@ end
function mod.read_inventory(inv, inv_name) function mod.read_inventory(inv, inv_name)
local stacks = inv:get_list(inv_name) local stacks = inv:get_list(inv_name)
if not stacks then return 0 end
local count = 0 local count = 0
for i=1,#stacks do for i=1,#stacks do
count = count + ( stacks[i]:get_count() / stacks[i]:get_stack_max() ) count = count + ( stacks[i]:get_count() / stacks[i]:get_stack_max() )

View file

@ -16,6 +16,7 @@ local minetest_swap_node = minetest.swap_node
local vector_add = vector.add local vector_add = vector.add
local vector_to_string = vector.to_string local vector_to_string = vector.to_string
local vector_from_string = vector.from_string local vector_from_string = vector.from_string
local math_floor = math.floor
-- Constants -- Constants
local REDSTONE_POWER_META = modname .. ".power" local REDSTONE_POWER_META = modname .. ".power"
@ -23,46 +24,145 @@ local REDSTONE_POWER_META_SOURCE = REDSTONE_POWER_META.."."
local multipower_cache = {} local multipower_cache = {}
local function hash_from_direction(dir)
return 9 * (dir.x + 1) + 3 * (dir.y + 1) + dir.z + 1
end
local function direction_from_hash(dir_hash)
local x = math_floor(dir_hash / 9) - 1
local y = math_floor((dir_hash % 9) / 3 ) - 1
local z = dir_hash % 3 - 1
return vector.new(x,y,z)
end
local DIR_HASH_ZERO = hash_from_direction(vector.zero())
print("DIR_HASH_ZERO="..tostring(DIR_HASH_ZERO))
local function get_input_rules_hash(mesecons, input_rules)
-- Skip build if already built
local redstone = mesecons._vl_redtone or {}
mesecons._vl_redstone = redstone
if redstone.input_rules_hash then return redstone.input_rules_hash end
-- Build the rules
local input_rules_hash = {}
redstone.input_rules_hash = input_rules_hash
for i=1,#input_rules do
input_rules_hash[hash_from_direction(input_rules[i])] = true
end
return input_rules_hash
end
local function get_node_multipower_data(pos, no_create) local function get_node_multipower_data(pos, no_create)
local hash = minetest_hash_node_pos(pos) local hash = minetest_hash_node_pos(pos)
local node_multipower = multipower_cache[hash] local node_multipower = multipower_cache[hash]
if not node_multipower and not no_create then if not node_multipower and not no_create then
local meta = minetest_get_meta(pos) local meta = minetest_get_meta(pos)
node_multipower = minetest_deserialize(meta:get_string("vl_redstone.multipower")) or {sources={}} node_multipower = minetest_deserialize(meta:get_string("vl_redstone.multipower"))
if not node_multipower or node_multipower.version ~= 1 then
node_multipower = {
version = 1,
sources={}
}
end
multipower_cache[hash] = node_multipower multipower_cache[hash] = node_multipower
end end
return node_multipower return node_multipower
end end
local function calculate_driven_strength(pos, input_rules_hash)
local dir_hash = dir and hash_from_direction(dir)
local node_multipower = get_node_multipower_data(pos)
local strength = 0
local strongest_direction_hash = nil
local sources = node_multipower.sources
input_rules_hash = input_rules_hash or {}
print("in update_node(pos="..vector_to_string(pos)..") node_multipower("..tostring(node_multipower)..")="..dump(node_multipower))
for pos_hash,data in pairs(sources) do
local source_strength = data[1]
local dirs = data[2]
--print("data="..dump(data))
--print("\t"..vector_to_string(pos)..".source["..vector_to_string(minetest_get_position_from_hash(pos_hash)).."] = "..tostring(strength))
-- Filter by specified direction
local match = false
if not dir_hash then
match = true
else
for i=1,#dirs do
match = match or input_rules_hash[dirs[i]]
end
end
print("match="..tostring(match)..",source_strength="..tostring(source_strength))
-- Update strength and track which direction the strongest power is coming from
if match and source_strength >= strength then
strength = source_strength
if #dirs ~= 0 then
strongest_direction_hash = dirs[1]
end
end
end
return strength,strongest_direction_hash
end
local function update_node(pos) local function update_node(pos)
local node = mcl_util_force_get_node(pos) local node = mcl_util_force_get_node(pos)
local nodedef = minetest.registered_nodes[node.name] local nodedef = minetest.registered_nodes[node.name]
-- Only do this processing of signal sinks -- Only do this processing of signal sinks and conductors
if not nodedef.mesecons then return end local nodedef_mesecons = nodedef.mesecons
if not nodedef_mesecons then return end
-- Calculate the maximum power feeding into this node print("Running update_node(pos="..vector_to_string(pos)..")")
local node_multipower = get_node_multipower_data(pos)
local strength = 0 -- Get input rules
local sources = node_multipower.sources local input_rules = nil
--print("in update_node(pos="..vector_to_string(pos)..") node_multipower("..tostring(node_multipower)..")="..dump(node_multipower)) if nodedef_mesecons.conductor then
for pos_hash,source_strength in pairs(sources) do input_rules = nodedef_mesecons.conductor.rules
--print("\t"..vector_to_string(pos)..".source["..vector_to_string(minetest_get_position_from_hash(pos_hash)).."] = "..tostring(strength)) elseif nodedef_mesecons.effector then
if source_strength > strength then strength = source_strength end input_rules = nodedef_mesecons.effector.rules
else
-- No input rules, can't act
print("Unable to find input rules for "..node.name..": mesecons="..dump(nodedef_mesecons))
return
end end
-- Calculate the maximum power feeding into this node
local input_rules_hash = get_input_rules_hash(nodedef_mesecons, input_rules)
print("input_rules_hash="..dump(input_rules_hash)..", input_rules="..dump(input_rules))
local strength,dir_hash = calculate_driven_strength(pos, input_rules_hash)
print("strength="..tostring(strength)..",dir_hash="..tostring(dir_hash))
-- Don't do any processing inf the actual strength at this node has changed -- Don't do any processing inf the actual strength at this node has changed
local node_multipower = get_node_multipower_data(pos)
local last_strength = node_multipower.strength or 0 local last_strength = node_multipower.strength or 0
--print("At "..vector_to_string(pos).." strength="..tostring(strength)..",last_strength="..tostring(last_strength)) print("At "..vector_to_string(pos).." strength="..tostring(strength)..",last_strength="..tostring(last_strength))
if last_strength == strength then return end if last_strength == strength then return end
-- Determine the input rule that the strength is coming from (for mesecons compatibility; there are mods that depend on it)
local rule = nil
for i = 1,#input_rules do
local input_rule = input_rules[i]
local input_rule_hash = hash_from_direction(input_rule)
if dir_hash == input_rule_hash then
rule = input_rule
break
end
end
if not rule then
print("No rule found")
return
else
print("rule="..dump(rule))
end
-- Update the state -- Update the state
node_multipower.strength = strength 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 sink = nodedef_mesecons.effector
local rule = nil
local sink = nodedef.mesecons.effector
if sink then if sink then
local new_node_name = nil local new_node_name = nil
--print("Updating "..node.name.." at "..vector_to_string(pos).."("..tostring(last_strength).."->"..tostring(strength)..")") --print("Updating "..node.name.." at "..vector_to_string(pos).."("..tostring(last_strength).."->"..tostring(strength)..")")
@ -87,7 +187,7 @@ local function update_node(pos)
end end
end end
-- TODO: handle signal level change notification -- handle signal level change notification
local hook = sink.action_change local hook = sink.action_change
if hook then if hook then
mcl_util_call_safe(nil, hook, {pos, node, rule, strength}) mcl_util_call_safe(nil, hook, {pos, node, rule, strength})
@ -104,7 +204,7 @@ local function update_node(pos)
return return
end end
local conductor = nodedef.mesecons.conductor local conductor = nodedef_mesecons.conductor
if conductor then if conductor then
-- Figure out if the node name changes based on the new state -- Figure out if the node name changes based on the new state
local new_node_name = nil local new_node_name = nil
@ -118,7 +218,7 @@ local function update_node(pos)
-- Update the node -- Update the node
if new_node_name and new_node_name ~= node.name then if new_node_name and new_node_name ~= node.name then
--[[ ---[[
print("Changing "..vector_to_string(pos).." from "..node.name.." to "..new_node_name.. print("Changing "..vector_to_string(pos).." from "..node.name.." to "..new_node_name..
", strength="..tostring(strength)..",last_strength="..tostring(last_strength)) ", strength="..tostring(strength)..",last_strength="..tostring(last_strength))
print("node.name="..node.name.. print("node.name="..node.name..
@ -169,10 +269,13 @@ local function get_positions_from_node_rules(pos, rules_type, list, powered)
-- Convert to absolute positions -- Convert to absolute positions
for i=1,#rules do for i=1,#rules do
local next_pos = vector_add(pos, rules[i]) local rule = rules[i]
local next_pos = vector_add(pos, rule)
local next_pos_hash = minetest_hash_node_pos(next_pos) local next_pos_hash = minetest_hash_node_pos(next_pos)
--print("\tnext: "..next_pos_str..", prev="..tostring(list[next_pos_str])) --print("\tnext: "..next_pos_str..", prev="..tostring(list[next_pos_str]))
list[next_pos_hash] = true local dirs = list[next_pos_hash] or {}
list[next_pos_hash] = dirs
dirs[hash_from_direction(rule)] = true
-- Power solid blocks -- Power solid blocks
if rules[i].spread then if rules[i].spread then
@ -206,7 +309,7 @@ vl_scheduler.register_function("vl_redstone:flow_power",function(task, source_po
local strength = source_strength - (i - 1) local strength = source_strength - (i - 1)
if strength < 0 then strength = 0 end if strength < 0 then strength = 0 end
for pos_hash,dir in pairs(list) do for pos_hash,dir_list in pairs(list) do
--print("Processing "..pos_str) --print("Processing "..pos_str)
if not processed[pos_hash] then if not processed[pos_hash] then
@ -216,11 +319,17 @@ vl_scheduler.register_function("vl_redstone:flow_power",function(task, source_po
-- Update node power directly -- Update node power directly
local node_multipower = get_node_multipower_data(pos) local node_multipower = get_node_multipower_data(pos)
--local old_strength = node_multipower.sources[source_pos_hash] or 0 local old_data = node_multipower.sources[source_pos_hash]
--print("Changing "..vector.to_string(pos)..".source["..vector_to_string(source_pos).."] from "..tostring(old_strength).." to "..tostring(strength)) local old_strength = old_data and old_data[1] or 0
--print("\tBefore node_multipower("..tostring(node_multipower)..")="..dump(node_multipower)) print("Changing "..vector.to_string(pos)..".source["..vector_to_string(source_pos).."] from "..tostring(old_strength).." to "..tostring(strength))
node_multipower.sources[source_pos_hash] = strength print("\tBefore node_multipower("..tostring(node_multipower)..")="..dump(node_multipower))
--print("\tAfter node_multipower("..tostring(node_multipower)..")="..dump(node_multipower)) print("\tdir_list="..dump(dir_list))
local dirs = {}
for k,_ in pairs(dir_list) do
dirs[#dirs+1] = k
end
node_multipower.sources[source_pos_hash] = {strength,dirs}
print("\tAfter node_multipower("..tostring(node_multipower)..")="..dump(node_multipower))
-- handle spread -- handle spread
get_positions_from_node_rules(pos, "conductor", next_list, powered) get_positions_from_node_rules(pos, "conductor", next_list, powered)