1
0
mirror of https://github.com/mt-mods/moretrees.git synced 2024-12-28 11:40:20 +01:00
moretrees/date_palm.lua

763 lines
27 KiB
Lua
Raw Normal View History

-- Date palms.
--
-- Date palms grow in hot and dry desert, but they require water. This makes them
-- a bit harder to find. If found in the middle of the desert, their presence
-- indicates a water source below the surface.
--
-- As an additional feature (which can be disabled), dates automatically regrow after
-- harvesting (provided a male tree is sufficiently nearby).
-- If regrowing is enabled, then ripe dates will not hang forever. Most will disappear
-- (e.g. eaten by birds, ...), and a small fraction will drop as items.
-- © 2016, Rogier <rogier777@gmail.com>
local S = minetest.get_translator("moretrees")
-- Some constants
local dates_drop_ichance = 4
local stems_drop_ichance = 4
local flowers_wither_ichance = 3
-- implementation
local dates_regrow_prob
if moretrees.dates_regrow_unpollinated_percent <= 0 then
dates_regrow_prob = 0
elseif moretrees.dates_regrow_unpollinated_percent >= 100 then
dates_regrow_prob = 1
else
dates_regrow_prob = 1 - math.pow(moretrees.dates_regrow_unpollinated_percent/100, 1/flowers_wither_ichance)
end
-- Make the date palm fruit trunk a real trunk (it is generated as a fruit)
local trunk = minetest.registered_nodes["moretrees:date_palm_trunk"]
local ftrunk = {}
local fftrunk = {}
local mftrunk = {}
for k,v in pairs(trunk) do
ftrunk[k] = v
end
ftrunk.tiles = {}
for k,v in pairs(trunk.tiles) do
ftrunk.tiles[k] = v
end
ftrunk.drop = "moretrees:date_palm_trunk"
ftrunk.after_destruct = function(pos, oldnode)
2020-08-26 02:11:18 +02:00
local dates = minetest.find_nodes_in_area(
{x=pos.x-2, y=pos.y, z=pos.z-2},
{x=pos.x+2, y=pos.y, z=pos.z+2},
{"group:moretrees_dates"}
)
for _,datespos in pairs(dates) do
-- minetest.dig_node(datespos) does not cause nearby dates to be dropped :-( ...
local items = minetest.get_node_drops(minetest.get_node(datespos).name)
minetest.swap_node(datespos, biome_lib.air)
for _, itemname in pairs(items) do
minetest.add_item(datespos, itemname)
end
end
end
for k,v in pairs(ftrunk) do
mftrunk[k] = v
fftrunk[k] = v
end
fftrunk.tiles = {}
mftrunk.tiles = {}
for k,v in pairs(trunk.tiles) do
fftrunk.tiles[k] = v
mftrunk.tiles[k] = v
end
-- Make the different types of trunk distinguishable (but not too easily)
ftrunk.tiles[1] = "moretrees_date_palm_trunk_top.png^[transformR180"
ftrunk.description = ftrunk.description.." (gen)"
fftrunk.tiles[1] = "moretrees_date_palm_trunk_top.png^[transformR90"
mftrunk.tiles[1] = "moretrees_date_palm_trunk_top.png^[transformR-90"
minetest.register_node("moretrees:date_palm_fruit_trunk", ftrunk)
minetest.register_node("moretrees:date_palm_ffruit_trunk", fftrunk)
minetest.register_node("moretrees:date_palm_mfruit_trunk", mftrunk)
-- ABM to grow new date blossoms
local date_regrow_abm_spec = {
nodenames = { "moretrees:date_palm_ffruit_trunk", "moretrees:date_palm_mfruit_trunk" },
interval = moretrees.dates_flower_interval,
chance = moretrees.dates_flower_chance,
action = function(pos, node, active_object_count, active_object_count_wider)
local dates = minetest.find_nodes_in_area({x=pos.x-2, y=pos.y, z=pos.z-2}, {x=pos.x+2, y=pos.y, z=pos.z+2}, "group:moretrees_dates")
-- New blossom interval increases exponentially with number of dates already hanging
-- In addition: if more dates are hanging, the chance of picking an empty spot decreases as well...
if math.random(2^#dates) <= 2 then
-- Grow in area of 5x5 round trunk; higher probability in 3x3 area close to trunk
local dx=math.floor((math.random(50)-18)/16)
local dz=math.floor((math.random(50)-18)/16)
local datepos = {x=pos.x+dx, y=pos.y, z=pos.z+dz}
local datenode = minetest.get_node(datepos)
if datenode.name == "air" then
if node.name == "moretrees:date_palm_ffruit_trunk" then
minetest.swap_node(datepos, {name="moretrees:dates_f0"})
else
minetest.swap_node(datepos, {name="moretrees:dates_m0"})
end
end
end
end
}
if moretrees.dates_regrow_pollinated or moretrees.dates_regrow_unpollinated_percent > 0 then
minetest.register_abm(date_regrow_abm_spec)
end
-- Choose male or female palm, and spawn initial dates
-- (Instead of dates, a dates fruit trunk is generated with the tree. This
-- ABM converts the trunk to a female or male fruit trunk, and spawns some
-- hanging dates)
minetest.register_abm({
nodenames = { "moretrees:date_palm_fruit_trunk" },
interval = 1,
chance = 1,
action = function(pos, node, active_object_count, active_object_count_wider)
local type
if math.random(100) <= moretrees.dates_female_percent then
type = "f"
minetest.swap_node(pos, {name="moretrees:date_palm_ffruit_trunk"})
else
type = "m"
minetest.swap_node(pos, {name="moretrees:date_palm_mfruit_trunk"})
end
2020-08-26 02:11:18 +02:00
local dates1 = minetest.find_nodes_in_area(
{x=pos.x-1, y=pos.y, z=pos.z-1},
{x=pos.x+1, y=pos.y, z=pos.z+1},
"air"
)
for _,genpos in pairs(dates1) do
if math.random(100) <= 20 then
if type == "m" then
minetest.swap_node(genpos, {name = "moretrees:dates_n"})
else
minetest.swap_node(genpos, {name = "moretrees:dates_f4"})
end
end
end
2020-08-26 02:11:18 +02:00
local dates2 = minetest.find_nodes_in_area(
{x=pos.x-2, y=pos.y, z=pos.z-2},
{x=pos.x+2, y=pos.y, z=pos.z+2},
"air"
)
for _,genpos in pairs(dates2) do
if math.random(100) <= 5 then
if type == "m" then
minetest.swap_node(genpos, {name = "moretrees:dates_n"})
else
minetest.swap_node(genpos, {name = "moretrees:dates_f4"})
end
end
end
end,
})
-- Dates growing functions.
-- This is a bit complex, as the purpose is to find male flowers at horizontal distances of over
-- 100 nodes. As searching such a large area is time consuming, this is optimized in four ways:
-- - The search result (the locations of male trees) is cached, so that it can be used again
-- - Only 1/9th of the desired area is searched at a time. A new search is only performed if no male
-- flowers are found in the previously searched parts.
-- - Search results are shared with other female palms nearby.
-- - If previous searches for male palms have consumed too much CPU time, the search is skipped
-- (This means no male palms will be found, and the pollination of the flowers affected will be
-- delayed. If this happens repeatedly, eventually, the female flowers will wither...)
-- A caching method was selected that is suited for the case where most date trees are long-lived,
-- and where the number of trees nearby is limited:
-- - Locations of male palms are stored as metadata for every female palm. This means that a player
-- visiting a remote area with some date palms will not cause extensive searches for male palms as
-- long overdue blossoming ABMs are triggered for every date palm.
-- - Even when male palms *are* cut down, a cache refill will only be performed if the cached results do not
-- contain a male palm with blossoms.
-- The method will probably perform suboptimally:
-- - If female palms are frequently chopped down and replanted.
-- Freshly grown palms will need to search for male palms again
-- (this is mitigated by the long blossoming interval, which increases the chance that search
-- results have already been shared)
-- - If an area contains a large number of male and female palms.
-- In this area, every female palm will have an almost identical list of male palm locations
-- as metadata.
-- - If all male palms within range of a number of female palms have been chopped down (with possibly
-- new ones planted). Although an attempt was made to share search results in this case as well,
-- a number of similar searches will unavoidably be performed by the different female palms.
-- - If no male palms are in range of a female palm. In that case, there will be frequent searches
-- for newly-grown male palms.
-- Search statistics - used to limit the search load.
local sect_search_stats = {} -- Search statistics - server-wide
local function reset_sect_search_stats()
sect_search_stats.count = 0 -- # of searches
sect_search_stats.skip = 0 -- # of times skipped
sect_search_stats.sum = 0 -- total time spent
sect_search_stats.min = 999999999 -- min time spent
sect_search_stats.max = 0 -- max time spent
end
reset_sect_search_stats()
sect_search_stats.last_us = 0 -- last time a search was done (microseconds, max: 2^32)
sect_search_stats.last_s = 0 -- last time a search was done (system time in seconds)
-- Find male trunks in one section (=1/9 th) of the searchable area.
-- sect is -4 to 4, where 0 is the center section
local function find_fruit_trunks_near(ftpos, sect)
local r = moretrees.dates_pollination_distance + 2 * math.sqrt(2)
local sect_hr = math.floor(r / 3 + 0.9999)
local sect_vr = math.floor(r / 2 + 0.9999)
2020-08-26 02:11:18 +02:00
local t0us = minetest.get_us_time()
local t0s = os.time()
-- Compute elapsed time since last search.
-- Unfortunately, the time value wraps after about 71 minutes (2^32 microseconds),
-- so it must be corrected to obtain the actual elapsed time.
if t0us < sect_search_stats.last_us then
-- Correct a simple wraparound.
-- This is not sufficient, as the time value may have wrapped more than once...
sect_search_stats.last_us = sect_search_stats.last_us - 2^32
end
if t0s - sect_search_stats.last_s > 2^32/1000000 then
-- One additional correction is enough for our purposes.
-- For exact results, more corrections may be needed though...
-- (and even not applying this correction at all would still only yield
-- a minimal risk of a non-serious miscalculation...)
sect_search_stats.last_us = sect_search_stats.last_us - 2^32
end
-- Skip the search if it is consuming too much CPU time
if sect_search_stats.count > 0 and moretrees.dates_blossom_search_iload > 0
and sect_search_stats.sum / sect_search_stats.count > moretrees.dates_blossom_search_time_treshold
and t0us - sect_search_stats.last_us < moretrees.dates_blossom_search_iload * (sect_search_stats.sum / sect_search_stats.count) then
sect_search_stats.skip = sect_search_stats.skip + 1
return nil
end
local basevec = { x = ftpos.x + 2 * sect.x * sect_hr,
y = ftpos.y,
z = ftpos.z + 2 * sect.z * sect_hr}
-- find_nodes_in_area is limited to 82^3, make sure to not overrun it
local sizevec = { x = sect_hr, y = sect_vr, z = sect_hr }
if sect_hr * sect_hr * sect_vr > 41^3 then
sizevec = vector.apply(sizevec, function(a) return math.min(a, 41) end)
end
local all_palms = minetest.find_nodes_in_area(
vector.subtract(basevec, sizevec),
vector.add(basevec, sizevec),
{"moretrees:date_palm_mfruit_trunk", "moretrees:date_palm_ffruit_trunk"})
-- Collect different palms in separate lists.
local female_palms = {}
local male_palms = {}
local all_male_palms = {}
for _, pos in pairs(all_palms) do
if pos.x ~= ftpos.x or pos.y ~= ftpos.y or pos.z ~= ftpos.z then
local node = minetest.get_node(pos)
if node and node.name == "moretrees:date_palm_ffruit_trunk" then
table.insert(female_palms,pos)
elseif node then
table.insert(all_male_palms,pos)
-- In sector 0, all palms are of interest.
-- In other sectors, forget about palms that are too far away.
if sect == 0 then
table.insert(male_palms,pos)
else
local ssq = 0
for _, c in pairs({"x", "z"}) do
local dc = pos[c] - ftpos[c]
ssq = ssq + dc * dc
end
if math.sqrt(ssq) <= r then
table.insert(male_palms,pos)
end
end
end
end
end
-- Update search statistics
2020-08-26 02:11:18 +02:00
local t1us = minetest.get_us_time()
if t1us < t0us then
-- Wraparound. Assume the search lasted less than 2^32 microseconds (~71 min)
-- (so no need to apply another correction)
t0us = t0us - 2^32
end
sect_search_stats.last_us = t0us
sect_search_stats.last_s = t0s
sect_search_stats.count = sect_search_stats.count + 1
sect_search_stats.sum = sect_search_stats.sum + t1us-t0us
if t1us - t0us < sect_search_stats.min then
sect_search_stats.min = t1us - t0us
end
if t1us - t0us > sect_search_stats.max then
sect_search_stats.max = t1us - t0us
end
return male_palms, female_palms, all_male_palms
end
local function dates_print_search_stats(log)
local stats
if sect_search_stats.count > 0 then
stats = string.format("Male date tree searching stats: searches: %d/%d: average: %d µs (%d..%d)",
sect_search_stats.count, sect_search_stats.count + sect_search_stats.skip,
sect_search_stats.sum/sect_search_stats.count, sect_search_stats.min, sect_search_stats.max)
else
stats = string.format("Male date tree searching stats: searches: 0/0: average: (no searches yet)")
end
if log then
minetest.log("action", "[moretrees] " .. stats)
end
return true, stats
end
minetest.register_chatcommand("dates_stats", {
description = "Print male date palm search statistics",
params = "|chat|log|reset",
privs = { server = true },
func = function(name, param)
2020-08-26 02:11:18 +02:00
param = string.lower(param:gsub("%s+", ""))
if param == "" or param == "chat" then
return dates_print_search_stats(false)
elseif param == "log" then
return dates_print_search_stats(true)
elseif param == "reset" then
reset_sect_search_stats()
return true
else
return false, "Invalid subcommand; expected: '' or 'chat' or 'log' or 'reset'"
end
end,
})
-- Find the female trunk near the female flowers to be pollinated
local function find_female_trunk(fbpos)
local trunks = minetest.find_nodes_in_area({x=fbpos.x-2, y=fbpos.y, z=fbpos.z-2},
{x=fbpos.x+2, y=fbpos.y, z=fbpos.z+2},
"moretrees:date_palm_ffruit_trunk")
local ftpos
local d = 99
for x, pos in pairs(trunks) do
local ssq = 0
for _, c in pairs({"x", "z"}) do
local dc = pos[c] - fbpos[c]
ssq = ssq + dc * dc
end
if math.sqrt(ssq) < d then
ftpos = pos
d = math.sqrt(ssq)
end
end
return ftpos
end
-- Find male blossom near a male trunk,
-- the male blossom must be in range of a specific female blossom as well
local function find_male_blossom_near_trunk(fbpos, mtpos)
local r = moretrees.dates_pollination_distance
local blossoms = minetest.find_nodes_in_area({x=mtpos.x-2, y=mtpos.y, z=mtpos.z-2},
{x=mtpos.x+2, y=mtpos.y, z=mtpos.z+2},
"moretrees:dates_m0")
for x, mbpos in pairs(blossoms) do
local ssq = 0
for _, c in pairs({"x", "z"}) do
local dc = mbpos[c] - fbpos[c]
ssq = ssq + dc * dc
end
if math.sqrt(ssq) <= r then
return mbpos
end
end
end
-- Find a male blossom in range of a specific female blossom,
-- using a nested list of male blossom positions
local function find_male_blossom_in_mpalms(ftpos, fbpos, mpalms)
-- Process the elements of mpalms.sect (index -4 .. 4) in random order
-- First, compute the order in which the sectors will be searched
local sect_index = {}
local sect_rnd = {}
for i = -4,4 do
local n = math.random(1023)
sect_index[n] = i
table.insert(sect_rnd, n)
end
table.sort(sect_rnd)
-- Search the sectors
local sect_old = 0
local sect_time = minetest.get_gametime()
for _, n in pairs(sect_rnd) do
-- Record the oldest sector, so that it can be searched if no male
-- blossoms were found
if not mpalms.sect_time[sect_index[n]] then
sect_old = sect_index[n]
sect_time = 0
elseif mpalms.sect_time[sect_index[n]] < sect_time then
sect_old = sect_index[n]
sect_time = mpalms.sect_time[sect_index[n]]
end
if mpalms.sect[sect_index[n]] and #mpalms.sect[sect_index[n]] then
for px, mtpos in pairs(mpalms.sect[sect_index[n]]) do
local node = minetest.get_node(mtpos)
if node and node.name == "moretrees:date_palm_mfruit_trunk" then
local mbpos = find_male_blossom_near_trunk(fbpos, mtpos)
if mbpos then
return mbpos
end
elseif node and node.name ~= "ignore" then
-- no more male trunk here.
mpalms.sect[sect_index[n]][px] = nil
end
end
end
end
return nil, sect_old
end
-- Find a male blossom in range of a specific female blossom,
-- using the cache associated with the given female trunk
-- If necessary, recompute part of the cache
local last_search_result = {}
local function find_male_blossom_with_ftrunk(fbpos,ftpos)
local meta = minetest.get_meta(ftpos)
local mpalms
local cache_changed = true
-- Load cache. If distance has changed, start with empty cache instead.
local mpalms_dist = meta:get_int("male_palms_dist")
if mpalms_dist and mpalms_dist == moretrees.dates_pollination_distance then
mpalms = meta:get_string("male_palms")
if mpalms and mpalms ~= "" then
mpalms = minetest.deserialize(mpalms)
cache_changed = false
end
end
if not mpalms or not mpalms.sect then
mpalms = {}
mpalms.sect = {}
mpalms.sect_time = {}
meta:set_int("male_palms_dist", moretrees.dates_pollination_distance)
cache_changed = true
end
local fpalms_list
local all_mpalms_list
local sector0_searched = false
-- Always make sure that sector 0 is cached
if not mpalms.sect[0] then
mpalms.sect[0], fpalms_list, all_mpalms_list = find_fruit_trunks_near(ftpos, {x = 0, z = 0})
mpalms.sect_time[0] = minetest.get_gametime()
sector0_searched = true
cache_changed = true
last_search_result.female = fpalms_list
last_search_result.male = all_mpalms_list
end
-- Find male palms
local mbpos, sect_old = find_male_blossom_in_mpalms(ftpos, fbpos, mpalms)
-- If not found, (re)generate the cache for an additional sector. But don't search it yet (for performance reasons)
-- (Use the globally cached results if possible)
if not mbpos and not sector0_searched then
if not mpalms.sect_time[0] or mpalms.sect_time[0] == 0 or math.random(3) == 1 then
-- Higher probability of re-searching the center sector
sect_old = 0
end
-- Use globally cached result if possible
mpalms.sect[sect_old] = nil
if sect_old == 0 and mpalms.sect_time[0] and mpalms.sect_time[0] > 0
and last_search_result.male and #last_search_result.male then
for _, pos in pairs(last_search_result.female) do
if pos.x == ftpos.x and pos.y == ftpos.y and pos.z == ftpos.z then
mpalms.sect[sect_old] = last_search_result.male
-- Next time, don't use the cached result
mpalms.sect_time[sect_old] = nil
cache_changed = true
end
end
end
-- Else do a new search
if not mpalms.sect[sect_old] then
mpalms.sect[sect_old], fpalms_list, all_mpalms_list = find_fruit_trunks_near(ftpos, {x = (sect_old + 4) % 3 - 1, z = (sect_old + 4) / 3 - 1})
cache_changed = true
if sect_old == 0 then
-- Save the results if it is sector 0
-- (chance of reusing results from another sector are smaller)
last_search_result.female = fpalms_list
last_search_result.male = all_mpalms_list
end
if mpalms.sect[sect_old] then
mpalms.sect_time[sect_old] = minetest.get_gametime()
else
mpalms.sect_time[sect_old] = nil
end
end
end
-- Share search results with other female trunks in the same area
-- Note that the list of female trunks doesn't (shouldn't :-) contain the current female trunk.
if fpalms_list and #fpalms_list and #all_mpalms_list then
local all_mpalms = {}
all_mpalms.sect = {}
all_mpalms.sect_time = {}
all_mpalms.sect[0] = all_mpalms_list
-- Don't set sect_time[0], so that the cached sector will be re-searched soon (if necessary)
local all_mpalms_serialized = minetest.serialize(all_mpalms)
for _, pos in pairs(fpalms_list) do
local fmeta = minetest.get_meta(pos)
local fdist = fmeta:get_int("male_palms_dist")
if not fdist or fdist ~= moretrees.dates_pollination_distance then
fmeta:set_string("male_palms", all_mpalms_serialized)
fmeta:set_int("male_palms_dist", moretrees.dates_pollination_distance)
end
end
end
-- Save cache.
if cache_changed then
meta:set_string("male_palms", minetest.serialize(mpalms))
end
return mbpos
end
-- Find a male blossom in range of a specific female blossom
local function find_male_blossom(fbpos)
local ftpos = find_female_trunk(fbpos)
if ftpos then
return find_male_blossom_with_ftrunk(fbpos, ftpos)
end
return nil
end
-- Growing function for dates
local dates_growfn = function(pos, elapsed)
local node = minetest.get_node(pos)
local delay = moretrees.dates_grow_interval
local action
if not node then
return
elseif not moretrees.dates_regrow_pollinated and dates_regrow_prob == 0 then
-- Regrowing of dates is disabled.
if string.find(node.name, "moretrees:dates_f") then
minetest.swap_node(pos, {name="moretrees:dates_f4"})
elseif string.find(node.name, "moretrees:dates_m") then
minetest.swap_node(pos, {name="moretrees:dates_n"})
else
minetest.swap_node(pos, biome_lib.air)
end
return
elseif node.name == "moretrees:dates_f0" and math.random(100) <= 100 * dates_regrow_prob then
-- Dates grow unpollinated
minetest.swap_node(pos, {name="moretrees:dates_f1"})
action = "nopollinate"
elseif node.name == "moretrees:dates_f0" and moretrees.dates_regrow_pollinated and find_male_blossom(pos) then
-- Pollinate flowers
minetest.swap_node(pos, {name="moretrees:dates_f1"})
action = "pollinate"
elseif string.match(node.name, "0$") then
-- Make female unpollinated and male flowers last a bit longer
if math.random(flowers_wither_ichance) == 1 then
if node.name == "moretrees:dates_f0" then
minetest.swap_node(pos, {name="moretrees:dates_fn"})
else
minetest.swap_node(pos, {name="moretrees:dates_n"})
end
action = "wither"
else
action = "nowither"
end
elseif node.name == "moretrees:dates_f4" then
-- Remove dates, and optionally drop them as items
if math.random(dates_drop_ichance) == 1 then
if moretrees.dates_item_drop_ichance > 0 and math.random(moretrees.dates_item_drop_ichance) == 1 then
local items = minetest.get_node_drops(minetest.get_node(pos).name)
for _, itemname in pairs(items) do
minetest.add_item(pos, itemname)
end
end
minetest.swap_node(pos, {name="moretrees:dates_n"})
action = "drop"
else
action = "nodrop"
end
elseif string.match(node.name, "n$") then
-- Remove stems.
if math.random(stems_drop_ichance) == 1 then
minetest.swap_node(pos, biome_lib.air)
return "stemdrop"
end
action = "nostemdrop"
else
-- Grow dates
local offset = 18
local n = string.sub(node.name, offset)
minetest.swap_node(pos, {name=string.sub(node.name, 1, offset-1)..n+1})
action = "grow"
end
-- Don't catch up when elapsed time is large. Regular visits are needed for growth...
local timer = minetest.get_node_timer(pos)
timer:start(delay + math.random(moretrees.dates_grow_interval))
return action
end
2020-08-26 02:11:18 +02:00
--[[
-- Alternate growth function for dates.
-- It calls the primary growth function, but also measures CPU time consumed.
-- Use this function to analyze date growing performance.
local stat = {}
stat.count = 0
local dates_growfn_profiling = function(pos, elapsed)
2020-08-26 02:11:18 +02:00
local t0 = minetest.get_us_time()
local action = dates_growfn(pos, elapsed)
2020-08-26 02:11:18 +02:00
local t1 = minetest.get_us_time()
if t1 < t0 then
t1 = t1 + 2^32
end
stat.count = stat.count + 1
if not stat[action] then
stat[action] = {}
stat[action].count = 0
stat[action].sum = 0
stat[action].min = 9999999999
stat[action].max = 0
end
stat[action].count = stat[action].count + 1
stat[action].sum = stat[action].sum + t1-t0
if t1-t0 < stat[action].min then
stat[action].min = t1-t0
end
if t1-t0 > stat[action].max then
stat[action].max = t1-t0
end
if stat.count % 10 == 0 then
io.write(".")
io.flush()
end
if stat.count % 100 == 0 then
print(string.format("Date grow statistics %5d:", stat.count))
local sum = 0
local count = 0
if sect_search_stats.count > 0 and stat.pollinate and stat.pollinate.count > 0 then
print(string.format("\t%-12s: %6d (%4.1f%%): %6dus (%d..%d)",
"search", sect_search_stats.count,
100*sect_search_stats.count/stat.pollinate.count,
sect_search_stats.sum/sect_search_stats.count,
sect_search_stats.min, sect_search_stats.max))
else
print(string.format("\t%-12s: %6d (%4.1f%%): %6dus (%d..%d)",
"search", sect_search_stats.count,
0, 0, 0, 0))
end
for action,data in pairs(stat) do
if action ~= "count" then
count = count + data.count
sum = sum + data.sum
print(string.format("\t%-12s: %6d (%4.1f%%): %6dus (%d..%d)",
action, data.count,
100*data.count/stat.count, data.sum/data.count,
data.min, data.max))
end
end
print(string.format("\t%-12s: %6d ( 100%%): %6dus",
"TOTAL", count, sum/count))
end
end
2020-08-26 02:11:18 +02:00
--]]
-- Register dates
local dates_starttimer = function(pos, elapsed)
local timer = minetest.get_node_timer(pos)
local base_interval = moretrees.dates_grow_interval * 2 / 3
timer:set(base_interval + math.random(base_interval), elapsed or 0)
end
local dates_drop = {
items = {
{items = { "moretrees:date" }},
{items = { "moretrees:date" }},
{items = { "moretrees:date" }},
{items = { "moretrees:date" }},
{items = { "moretrees:date" }, rarity = 2 },
{items = { "moretrees:date" }, rarity = 2 },
{items = { "moretrees:date" }, rarity = 2 },
{items = { "moretrees:date" }, rarity = 2 },
{items = { "moretrees:date" }, rarity = 5 },
{items = { "moretrees:date" }, rarity = 5 },
{items = { "moretrees:date" }, rarity = 5 },
{items = { "moretrees:date" }, rarity = 5 },
{items = { "moretrees:date" }, rarity = 20 },
{items = { "moretrees:date" }, rarity = 20 },
{items = { "moretrees:date" }, rarity = 20 },
{items = { "moretrees:date" }, rarity = 20 },
}
}
for _,suffix in ipairs({"f0", "f1", "f2", "f3", "f4", "m0", "fn", "n"}) do
local name
if suffix == "f0" or suffix == "m0" then
name = S("Date Flowers")
elseif suffix == "n" or suffix == "fn" then
name = S("Date Stem")
else
name = S("Dates")
end
local dropfn = suffix == "f4" and dates_drop or ""
local datedef = {
description = name,
tiles = {"moretrees_dates_"..suffix..".png"},
visual_scale = 2,
drawtype = "plantlike",
paramtype = "light",
sunlight_propagates = true,
walkable = false,
groups = { fleshy=3, dig_immediate=3, flammable=2, moretrees_dates=1 },
inventory_image = "moretrees_dates_"..suffix..".png^[transformR0",
wield_image = "moretrees_dates_"..suffix..".png^[transformR90",
sounds = default.node_sound_defaults(),
drop = dropfn,
selection_box = {
type = "fixed",
fixed = {-0.3, -0.3, -0.3, 0.3, 3.5, 0.3}
},
on_timer = dates_growfn,
on_construct = (moretrees.dates_regrow_pollinated or moretrees.dates_regrow_unpollinated_percent > 0)
and dates_starttimer,
}
minetest.register_node("moretrees:dates_"..suffix, datedef)
end
-- If regrowing was previously disabled, but is enabled now, make sure timers are started for existing dates
if moretrees.dates_regrow_pollinated or moretrees.dates_regrow_unpollinated_percent > 0 then
local spec = {
name = "moretrees:restart_dates_regrow_timer",
nodenames = "group:moretrees_dates",
action = function(pos, node, active_object_count, active_object_count_wider)
local timer = minetest.get_node_timer(pos)
if not timer:is_started() then
dates_starttimer(pos)
else
local timeout = timer:get_timeout()
local elapsed = timer:get_elapsed()
if timeout - elapsed > moretrees.dates_grow_interval * 4/3 then
dates_starttimer(pos, math.random(moretrees.dates_grow_interval * 4/3))
end
end
end,
}
if minetest.register_lbm then
minetest.register_lbm(spec)
else
spec.interval = 3557
spec.chance = 10
minetest.register_abm(spec)
end
end