master #7

Merged
BRNSystems merged 95 commits from Mirrorlandia_minetest/minetest:master into master 2024-01-28 00:16:42 +01:00
5 changed files with 280 additions and 33 deletions
Showing only changes of commit e7dd9737bd - Show all commits

@ -1,4 +1,116 @@
local jobs = {}
-- 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
@ -9,42 +121,54 @@ core.register_globalstep(function(dtime)
return
end
time_next = math.huge
-- Remove the expired jobs.
local expired = remove_first_jobs()
-- Iterate backwards so that we miss any new timers added by
-- a timer callback.
for i = #jobs, 1, -1 do
local job = jobs[i]
if time >= job.expire then
core.set_last_run_mod(job.mod_origin)
job.func(unpack(job.arg))
local jobs_l = #jobs
jobs[i] = jobs[jobs_l]
jobs[jobs_l] = nil
elseif job.expire < time_next then
time_next = job.expire
-- 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)
function core.after(after, func, ...)
assert(tonumber(after) and type(func) == "function",
"Invalid minetest.after invocation")
local expire = time + after
local new_job = {
func = func,
expire = expire,
arg = {...},
mod_origin = core.get_last_run_mod(),
}
local job_metatable = {__index = {}}
jobs[#jobs + 1] = new_job
time_next = math.min(time_next, expire)
return {
cancel = function()
new_job.func = function() end
new_job.args = {}
end
}
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",
"Invalid minetest.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

@ -0,0 +1,113 @@
_G.core = {}
_G.vector = {metatable = {}}
dofile("builtin/common/vector.lua")
dofile("builtin/common/misc_helpers.lua")
function core.get_last_run_mod() return "*test*" end
function core.set_last_run_mod() end
local do_step
function core.register_globalstep(func)
do_step = func
end
dofile("builtin/common/after.lua")
describe("after", function()
it("executes callbacks when expected", function()
local result = ""
core.after(0, function()
result = result .. "a"
end)
core.after(1, function()
result = result .. "b"
end)
core.after(1, function()
result = result .. "c"
end)
core.after(2, function()
result = result .. "d"
end)
local cancel = core.after(2, function()
result = result .. "e"
end)
do_step(0)
assert.same("a", result)
do_step(1)
assert.same("abc", result)
core.after(2, function()
result = result .. "f"
end)
core.after(1, function()
result = result .. "g"
end)
core.after(-1, function()
result = result .. "h"
end)
cancel:cancel()
do_step(1)
assert.same("abchdg", result)
do_step(1)
assert.same("abchdgf", result)
end)
it("defers jobs with delay 0", function()
local result = ""
core.after(0, function()
core.after(0, function()
result = result .. "b"
end)
result = result .. "a"
end)
do_step(1)
assert.same("a", result)
do_step(1)
assert.same("ab", result)
end)
it("passes arguments", function()
core.after(0, function(...)
assert.same(0, select("#", ...))
end)
core.after(0, function(...)
assert.same(4, select("#", ...))
assert.same(1, (select(1, ...)))
assert.same(nil, (select(2, ...)))
assert.same("a", (select(3, ...)))
assert.same(nil, (select(4, ...)))
end, 1, nil, "a", nil)
do_step(0)
end)
it("rejects invalid arguments", function()
assert.has.errors(function() core.after() end)
assert.has.errors(function() core.after(nil, nil) end)
assert.has.errors(function() core.after(0) end)
assert.has.errors(function() core.after(0, nil) end)
assert.has.errors(function() core.after(nil, function() end) end)
assert.has.errors(function() core.after(0 / 0, function() end) end)
end)
-- Make sure that the underlying heap is working correctly
it("can be abused as a heapsort", function()
local t = {}
for i = 1, 1000 do
t[i] = math.random(100)
end
local sorted = table.copy(t)
table.sort(sorted)
local i = 0
for _, v in ipairs(t) do
core.after(v, function()
i = i + 1
assert.equal(v, sorted[i])
end)
end
do_step(math.max(unpack(t)))
assert.equal(#t, i)
end)
end)

@ -31,6 +31,7 @@ core.features = {
physics_overrides_v2 = true,
hud_def_type_field = true,
random_state_restore = true,
after_order_expiry_registration = true,
}
function core.has_feature(arg)

@ -397,6 +397,10 @@ Call these functions only at load time!
* `minetest.after(time, func, ...)`
* Call the function `func` after `time` seconds, may be fractional
* Optional: Variable number of arguments that are passed to `func`
* Jobs set for earlier times are executed earlier. If multiple jobs expire
at exactly the same time, then they expire in the order in which they were
registered. This basically just applies to jobs registered on the same
step with the exact same delay.
* `minetest.get_us_time()`
* Returns time with microsecond precision. May not return wall time.
* `minetest.get_timeofday()`

@ -5288,6 +5288,9 @@ Utilities
-- PseudoRandom has get_state method
-- PcgRandom has get_state and set_state methods (5.9.0)
random_state_restore = true,
-- minetest.after guarantees that coexisting jobs are executed primarily
-- in order of expiry and secondarily in order of registration (5.9.0)
after_order_expiry_registration = true,
}
```
@ -6458,6 +6461,8 @@ Timing
* `minetest.after(time, func, ...)`: returns job table to use as below.
* Call the function `func` after `time` seconds, may be fractional
* Optional: Variable number of arguments that are passed to `func`
* Jobs set for earlier times are executed earlier. If multiple jobs expire
at exactly the same time, then they are executed in registration order.
* `job:cancel()`
* Cancels the job function from being called