minetest/builtin/common/after.lua

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-- This is an implementation of a job sheduling mechanism. It guarantees that
-- coexisting jobs will execute primarily in order of least expiry, and
-- secondarily in order of first registration.
-- These functions implement an intrusive singly linked list of one or more
-- elements where the first element has a pointer to the last. The next pointer
-- is stored with key list_next. The pointer to the last is with key list_end.
local function list_init(first)
first.list_end = first
end
local function list_append(first, append)
first.list_end.list_next = append
first.list_end = append
end
local function list_append_list(first, first_append)
first.list_end.list_next = first_append
first.list_end = first_append.list_end
end
-- The jobs are stored in a map from expiration times to linked lists of jobs
-- as above. The expiration times are also stored in an array representing a
-- binary min heap, which is a particular arrangement of binary tree. A parent
-- at index i has children at indices i*2 and i*2+1. Out-of-bounds indices
-- represent nonexistent children. A parent is never greater than its children.
-- This structure means that, if there is at least one job, the next expiration
-- time is the first item in the array.
-- Push element on a binary min-heap,
-- "bubbling up" the element by swapping with larger parents.
local function heap_push(heap, element)
local index = #heap + 1
while index > 1 do
local parent_index = math.floor(index / 2)
local parent = heap[parent_index]
if element < parent then
heap[index] = parent
index = parent_index
else
break
end
end
heap[index] = element
end
-- Pop smallest element from the heap,
-- "sinking down" the last leaf on the last layer of the heap
-- by swapping with the smaller child.
local function heap_pop(heap)
local removed_element = heap[1]
local length = #heap
local element = heap[length]
heap[length] = nil
length = length - 1
if length > 0 then
local index = 1
while true do
local old_index = index
local smaller_element = element
local left_index = index * 2
local right_index = index * 2 + 1
if left_index <= length then
local left_element = heap[left_index]
if left_element < smaller_element then
index = left_index
smaller_element = left_element
end
end
if right_index <= length then
if heap[right_index] < smaller_element then
index = right_index
end
end
if old_index ~= index then
heap[old_index] = heap[index]
else
break
end
end
heap[index] = element
end
return removed_element
end
local job_map = {}
local expiries = {}
-- Adds an individual job with the given expiry.
-- The worst-case complexity is O(log n), where n is the number of distinct
-- expiration times.
local function add_job(expiry, job)
local list = job_map[expiry]
if list then
list_append(list, job)
else
list_init(job)
job_map[expiry] = job
heap_push(expiries, expiry)
end
end
-- Removes the next expiring jobs and returns the linked list of them.
-- The worst-case complexity is O(log n), where n is the number of distinct
-- expiration times.
local function remove_first_jobs()
local removed_expiry = heap_pop(expiries)
local removed = job_map[removed_expiry]
job_map[removed_expiry] = nil
return removed
end
local time = 0.0
local time_next = math.huge
core.register_globalstep(function(dtime)
time = time + dtime
if time < time_next then
return
end
-- Remove the expired jobs.
local expired = remove_first_jobs()
-- Remove other expired jobs and append them to the list.
while true do
time_next = expiries[1] or math.huge
if time_next > time then
break
end
list_append_list(expired, remove_first_jobs())
end
-- Run the callbacks afterward to prevent infinite loops with core.after(0, ...).
local last_expired = expired.list_end
while true do
core.set_last_run_mod(expired.mod_origin)
expired.func(unpack(expired.args, 1, expired.args.n))
if expired == last_expired then
break
end
expired = expired.list_next
end
end)
local job_metatable = {__index = {}}
local function dummy_func() end
function job_metatable.__index:cancel()
self.func = dummy_func
self.args = {n = 0}
end
function core.after(after, func, ...)
assert(tonumber(after) and not core.is_nan(after) and type(func) == "function",
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"Invalid core.after invocation")
local new_job = {
mod_origin = core.get_last_run_mod(),
func = func,
args = {
n = select("#", ...),
...
},
}
local expiry = time + after
add_job(expiry, new_job)
time_next = math.min(time_next, expiry)
return setmetatable(new_job, job_metatable)
end