elepower/elepower_papi/network.lua
Sirrobzeroone 5d14083f2c Standalone Powercell, Lighting Fix's
Powercells can now power machines so long as they are charged up and connected to a machine/light bulb etc ie powercells can be a provider on there own now.

Lighting fixed a few issues:
Lights weren't getting power if you added them to a network while it was on powercell power rather than provider power.
Floodlights had the wrong drops listed
2021-09-26 22:35:44 +10:00

583 lines
18 KiB
Lua

-- Network graphs are built eminating from provider nodes.
--[[
Power taken from power providers is not balanced so all power comes from
1st provider in table then 2nd 3rd...etc needs balancing like users.
]]
-- Network cache
ele.graphcache = {devices = {}}
---------------------
-- Graph Functions --
---------------------
local function table_has_string(arr, str)
for _,astr in ipairs(arr) do
if astr == str then
return true
end
end
return false
end
local function add_node(nodes, pos, pnodeid, group)
local node_id = minetest.hash_node_position(pos)
if not ele.graphcache.devices[node_id] then
ele.graphcache.devices[node_id] = {}
end
if not table_has_string(ele.graphcache.devices[node_id], pnodeid) then
table.insert(ele.graphcache.devices[node_id], pnodeid)
end
if nodes[node_id] then
return false
end
nodes[node_id] = pos
if group ~= nil then
nodes[node_id].group = group
end
return true
end
local function add_conductor_node(nodes, pos, pnodeid, queue)
if add_node(nodes, pos, pnodeid) then
queue[#queue + 1] = pos
end
end
local function check_node(users, providers, conductors, pos, pr_pos, pnodeid, queue)
if minetest.pos_to_string(pos) == pnodeid then return end
ele.helpers.get_or_load_node(pos)
local node = minetest.get_node(pos)
local meta = minetest.get_meta(pos)
if ele.helpers.get_item_group(node.name, "ele_conductor") then
add_conductor_node(conductors, pos, pnodeid, queue)
--minetest.debug("C2"..minetest.pos_to_string(pos))
return
end
if not ele.helpers.get_item_group(node.name, "ele_machine") then
return
end
if ele.helpers.get_item_group(node.name, "ele_user") then
if add_node(users, pos, pnodeid) then
queue[#queue + 1] = pos
--minetest.debug("M2"..minetest.pos_to_string(pos))
end
elseif ele.helpers.get_item_group(node.name, "ele_storage") then
if add_node(users, pos, pnodeid, "ele_storage") then
queue[#queue + 1] = pos
--minetest.debug("S2"..minetest.pos_to_string(pos))
end
elseif ele.helpers.get_item_group(node.name, "ele_provider") then
if add_node(providers, pos, pnodeid) then
queue[#queue + 1] = pos
--minetest.debug("P2"..minetest.pos_to_string(pos))
end
end
end
local function traverse_network(users, providers, conductors, pos, pr_pos, pnodeid, queue)
local positions = {
{x=pos.x+1, y=pos.y, z=pos.z},
{x=pos.x-1, y=pos.y, z=pos.z},
{x=pos.x, y=pos.y+1, z=pos.z},
{x=pos.x, y=pos.y-1, z=pos.z},
{x=pos.x, y=pos.y, z=pos.z+1},
{x=pos.x, y=pos.y, z=pos.z-1}}
for _, cur_pos in pairs(positions) do
-- if node already in table then dont add
check_node(users, providers, conductors, cur_pos, pr_pos, pnodeid, queue)
end
end
local function discover_branches(pr_pos, positions)
local provider = minetest.get_node(pr_pos)
local pnodeid = minetest.pos_to_string(pr_pos)
if ele.graphcache[pnodeid] then
local cached = ele.graphcache[pnodeid]
return cached.users, cached.providers
end
local users = {}
local providers = {}
local queue = {}
local conductors = {}
for _,pos in ipairs(positions) do
queue = {}
local node = minetest.get_node(pos)
if node and ele.helpers.get_item_group(node.name, "ele_conductor") then
add_conductor_node(conductors, pos, pnodeid, queue)
--minetest.debug("C "..minetest.pos_to_string(pos))
elseif node and ele.helpers.get_item_group(node.name, "ele_machine") then
queue = {pr_pos}
--minetest.debug("M "..minetest.pos_to_string(pr_pos))
end
while next(queue) do
local to_visit = {}
for _, posi in ipairs(queue) do
traverse_network(users, providers, conductors, posi, pr_pos, pnodeid, to_visit)
end
queue = to_visit
end
end
-- self/triggered abm node can be provider or powercell/user_gets
-- add to correct table provider or user
if ele.helpers.get_item_group(provider.name, "ele_storage") then
add_node(users, pr_pos, pnodeid, "ele_storage")
else
add_node(providers, pr_pos, pnodeid)
end
users = ele.helpers.flatten(users)
providers = ele.helpers.flatten(providers)
conductors = ele.helpers.flatten(conductors)
ele.graphcache[pnodeid] = {conductors = conductors, users = users, providers = providers}
return users, providers
end
-----------------------
-- Main Transfer ABM --
-----------------------
local function give_node_power(pos, available)
local user_meta = minetest.get_meta(pos)
local capacity = ele.helpers.get_node_property(user_meta, pos, "capacity")
local inrush = ele.helpers.get_node_property(user_meta, pos, "inrush")
local storage = user_meta:get_int("storage")
local usage = ele.helpers.get_node_property(user_meta, pos, "usage")
local status = user_meta:get_string("infotext")
local total_add = 0
if available >= inrush then
total_add = inrush
elseif available < inrush then
total_add = available
end
if total_add + storage > capacity then
total_add = capacity - storage
end
if storage >= capacity then
total_add = 0
storage = capacity
end
return total_add, storage, usage, status
end
minetest.register_abm({
nodenames = {"group:ele_provider","group:ele_storage"},
label = "elepower Power Transfer Tick",
interval = 1,
chance = 1,
action = function(pos, node, active_object_count, active_object_count_wider)
local meta = minetest.get_meta(pos)
local meta1 = nil
local users = {}
local providers = {}
local providerdef = minetest.registered_nodes[node.name]
-- TODO: Customizable output sides
local positions = {
{x=pos.x, y=pos.y-1, z=pos.z},
{x=pos.x, y=pos.y+1, z=pos.z},
{x=pos.x-1, y=pos.y, z=pos.z},
{x=pos.x+1, y=pos.y, z=pos.z},
{x=pos.x, y=pos.y, z=pos.z-1},
{x=pos.x, y=pos.y, z=pos.z+1}
}
local branches = {}
for _,pos1 in ipairs(positions) do
local pnode = minetest.get_node(pos1)
local name = pnode.name
local networked = ele.helpers.get_item_group(name, "ele_machine") or
ele.helpers.get_item_group(name, "ele_conductor")
if networked then
branches[#branches + 1] = pos1
end
--minetest.debug(name.." "..tostring(networked).." :B"..#branches)
end
-- No possible branches found
if #branches == 0 then
minetest.forceload_free_block(pos)
return
else
minetest.forceload_block(pos)
end
-- Find all users and providers
users, providers = discover_branches(pos, branches)
-- Standalone Powercell check
if ele.helpers.get_item_group(node.name, "ele_storage") and #providers >= 1 then
-- abm hits powercell but network has provider end here
-- as power distribution will be handled on provider abm hit
-- minetest.debug("provider present")
return
elseif ele.helpers.get_item_group(node.name, "ele_provider") then
--minetest.debug("Provider")
else
--minetest.debug("solo storage")
end
-- Calculate power data for providers
local pw_supply = 0
local pw_demand = 0
local bat_supply = 0
for _, spos in ipairs(providers) do
local smeta = minetest.get_meta(spos)
local pw_storage = smeta:get_int("storage")
local p_output = ele.helpers.get_node_property(smeta, spos, "output")
if p_output and pw_storage >= p_output then
pw_supply = pw_supply + p_output
elseif p_output and pw_storage < p_output then
pw_supply = pw_supply + pw_storage
end
end
-- Power Cells / Batteries
-- Calculate power data for batteries
-- set two override tables to remove batteries from
-- users and make them providers.
local bat_flag = false
local bat_users = {}
local bat_providers = {}
-- Providers all give power on 1st provider hit by abm, then there pr_pos
-- power avaliable is set to 0. We dont want batteries running on this
-- secondary + abm hits. On 1st pass a meta value is set on all providers
-- "dep_time" - depleted time, just a simple os.clock timestamp.
local dep_timer = true
local time_since_dep = os.clock() - meta:get_int("dep_time") or 0
if time_since_dep < 1 then
dep_timer = false
end
if pw_supply == 0 and dep_timer == true then
for k,pg in pairs(users) do -- pg = pos and group
if pg.group == "ele_storage" then
local bpos = {x = pg.x, y = pg.y, z = pg.z}
local smeta = minetest.get_meta(bpos)
local bat_storage = smeta:get_int("storage")
local bat_output = ele.helpers.get_node_property(smeta, bpos, "output")
table.insert(bat_providers, pg) -- save node_users who are batteries to providers
if bat_output and bat_storage >= bat_output then
bat_supply = bat_supply + bat_output
elseif bat_output and bat_storage < bat_output then
bat_supply = bat_supply + bat_storage
end
else
table.insert(bat_users, pg) -- save node_users who aren't batteries
end
end
users = bat_users -- replace users with bat_users so batteries arent users anymore
providers = bat_providers -- replace providers with bat_providers
pw_supply = bat_supply -- override with battery supply
bat_flag = true
end
-- Give power to users
local divide_power = {}
for _,ndv in ipairs(users) do --ndv = pos table
-- Check how much power a node wants and can get ie is it close to full charge
local user_gets, user_storage, user_usage, user_status = give_node_power(ndv, (pw_supply - pw_demand)) -- pw_demand always 0 check old code
-- when on battery we dont want to provide user_inrush or if
-- machine is currently not in use we dont want to use bat power
-- user_status provides the tooltip info when you point at a
-- machine, only intrested in "Active", any value but "nil" indicates
-- the word "Active" was found.
if bat_flag == true then
local active = string.find(user_status, "Active")
local out_power = string.find(user_status, "Out of Power")
--minetest.debug(dump(user_status))
if active ~= nil or out_power ~= nil then
if user_gets > user_usage then
user_gets = user_usage
end
else
user_gets = 0
end
end
-- Add the node_users wanting power to table for later power division
if user_gets > 0 then
table.insert(divide_power,{pos = ndv,user_gets = user_gets, user_storage = user_storage})
end
end
-- The below shares avaliable power from a network between node_users
-- Only whole numbers are accepted so any remainders are added to
-- the first few node_users. If divided power is less than 1 the
-- network is overloaded and delivers no power to any nodes.
-- A node_user can recieve power from two different networks
-- if pw_supply ~= 0 then minetest.debug(node.name.." - Power Can Supply: "..pw_supply) end --debug line
local num_users = #divide_power
local div_pwr = pw_supply/num_users
local whole_pwr_num = math.floor(div_pwr)
local remainder_pwr_num = (math.fmod(div_pwr,1))*num_users
if div_pwr < 1 then
num_users = 0 -- network overload
end
local i = 1
while(num_users >= i)do
local final_pwr_num
if remainder_pwr_num > 0.5 then
final_pwr_num = whole_pwr_num + 1
remainder_pwr_num = remainder_pwr_num - 1
else
final_pwr_num = whole_pwr_num
end
if final_pwr_num > divide_power[i].user_gets then
final_pwr_num = divide_power[i].user_gets
end
-- minetest.debug("node_user "..minetest.pos_to_string(divide_power[i].pos).." Power Supplied:"..final_pwr_num) -- debug line
local user_meta = minetest.get_meta(divide_power[i].pos)
user_meta:set_int("storage", divide_power[i].user_storage + final_pwr_num)
pw_demand = pw_demand + final_pwr_num
ele.helpers.start_timer(divide_power[i].pos)
i = i+1
end
-- Take the power from provider nodes
if pw_demand > 0 then
for _, spos in ipairs(providers) do
if pw_demand == 0 then break end
local smeta = minetest.get_meta(spos)
local pw_storage = smeta:get_int("storage")
if pw_storage >= pw_demand then
smeta:set_int("storage", pw_storage - pw_demand)
pw_demand = 0
else
pw_demand = pw_demand - pw_storage
smeta:set_int("storage", 0)
end
if bat_flag == false then
smeta:set_int("dep_time", os.clock())
end
ele.helpers.start_timer(spos)
end
end
-- if pw_supply ~= 0 then minetest.debug("end_run") end -- debug line
-- minetest.debug(dump(ele.graphcache)) -- network dump
end,
})
------------------------
-- Network Add/Remove --
------------------------
local function check_connections(pos)
local connections = {}
local positions = {
{x=pos.x+1, y=pos.y, z=pos.z},
{x=pos.x-1, y=pos.y, z=pos.z},
{x=pos.x, y=pos.y+1, z=pos.z},
{x=pos.x, y=pos.y-1, z=pos.z},
{x=pos.x, y=pos.y, z=pos.z+1},
{x=pos.x, y=pos.y, z=pos.z-1}}
for _,connected_pos in ipairs(positions) do
local name = minetest.get_node(connected_pos).name
if ele.helpers.get_item_group(name, "ele_conductor") or ele.helpers.get_item_group(name, "ele_machine") then
table.insert(connections, connected_pos)
end
end
return connections
end
-- Update networks when a node has been placed or removed
function ele.clear_networks(pos)
local node = minetest.get_node(pos)
local meta = minetest.get_meta(pos)
local name = node.name
local placed = name ~= "air"
local positions = check_connections(pos)
if #positions < 1 then return end
local hash_pos = minetest.hash_node_position(pos)
local dead_end = #positions == 1
for _,connected_pos in ipairs(positions) do
local networks = ele.graphcache.devices[minetest.hash_node_position(connected_pos)] or
{minetest.pos_to_string(connected_pos)}
for _,net in ipairs(networks) do
if net and ele.graphcache[net] then
-- This is so we can break the pipeline instead of the network search loop
while true do
if dead_end and placed then
-- Dead end placed, add it to the network
-- Get the networks
local network_ids = ele.graphcache.devices[minetest.hash_node_position(positions[1])] or
{minetest.pos_to_string(positions[1])}
if not #network_ids then
-- We're evidently not on a network, nothing to add ourselves to
break
end
for _, int_net in ipairs(network_ids) do
if ele.graphcache[int_net] then
local network = ele.graphcache[int_net]
-- Actually add it to the (cached) network
if not ele.graphcache.devices[hash_pos] then
ele.graphcache.devices[hash_pos] = {}
end
if not table_has_string(ele.graphcache.devices[hash_pos], int_net) then
table.insert(ele.graphcache.devices[hash_pos], int_net)
end
-- local function to check if value exists in network tables
-- required as each provider has its own network so placed node
-- can end up inside overall network grps two or more times
local function check_exists(table_sub,pos)
local exist = false
local tpos_string
local pos_string
for k,v in ipairs(table_sub) do
-- we have group on some of these so need to
-- manually create tpos cant just use v
tpos_string = minetest.pos_to_string({x=v.x,y=v.y,z=v.z})
pos_string = minetest.pos_to_string(pos)
if tpos_string == pos_string then
exist = true
end
end
return exist
end
if ele.helpers.get_item_group(name, "ele_conductor") then
--minetest.debug("check : "..tostring(check_exists(network.conductors,pos))) -- debug line
if not check_exists(network.users,pos) then
table.insert(network.conductors,pos)
end
elseif ele.helpers.get_item_group(name, "ele_machine") then
if ele.helpers.get_item_group(name, "ele_user") or
ele.helpers.get_item_group(name, "ele_storage") then
if not check_exists(network.users,pos) then
table.insert(network.users, pos)
end
elseif ele.helpers.get_item_group(name, "ele_provider") then
if not check_exists(network.providers, pos) then
table.insert(network.providers, pos)
end
end
end
end
end
break
elseif dead_end and not placed then
-- Dead end removed, remove it from the network
-- Get the network
local network_ids = ele.graphcache.devices[minetest.hash_node_position(positions[1])] or
{minetest.pos_to_string(positions[1])}
if not #network_ids then
-- We're evidently not on a network, nothing to remove ourselves from
break
end
for _,int_net in ipairs(network_ids) do
if ele.graphcache[int_net] then
local network = ele.graphcache[int_net]
-- The network was deleted.
if int_net == minetest.pos_to_string(pos) then
for _,v in ipairs(network.conductors) do
local pos1 = minetest.hash_node_position(v)
ele.graphcache.devices[pos1] = nil
end
ele.graphcache[int_net] = nil
else
-- Search for and remove device
-- This checks and removes from network.users,
-- network.conductors and network.providers
ele.graphcache.devices[hash_pos] = nil
for tblname, tables in pairs(network) do
if type(tables) == "table" then
for devicenum, device in pairs(tables) do
if vector.equals(device, pos) then
table.remove(tables,devicenum)
end
end
end
end
end
end
end
break
else
-- Not a dead end, so the whole network needs to be recalculated
for _,v in ipairs(ele.graphcache[net].conductors) do
local pos1 = minetest.hash_node_position(v)
ele.graphcache.devices[pos1] = nil
end
ele.graphcache[net] = nil
break
end
break
end
end
end
end
end