cc-mek-scada/scada-common/util.lua
Mikayla Fischler 0bc0decbf2 util.is_int
2022-06-05 16:51:38 -04:00

322 lines
8.3 KiB
Lua

--
-- Utility Functions
--
---@class util
local util = {}
-- OPERATORS --
-- trinary operator
---@param cond boolean condition
---@param a any return if true
---@param b any return if false
---@return any value
function util.trinary(cond, a, b)
if cond then return a else return b end
end
-- PRINT --
-- print
---@param message any
function util.print(message)
term.write(tostring(message))
end
-- print line
---@param message any
function util.println(message)
print(tostring(message))
end
-- timestamped print
---@param message any
function util.print_ts(message)
term.write(os.date("[%H:%M:%S] ") .. tostring(message))
end
-- timestamped print line
---@param message any
function util.println_ts(message)
print(os.date("[%H:%M:%S] ") .. tostring(message))
end
-- STRING TOOLS --
-- get a value as a string
---@param val any
---@return string
function util.strval(val)
local t = type(val)
if t == "table" or t == "function" then
return "[" .. tostring(val) .. "]"
else
return tostring(val)
end
end
-- concatenation with built-in to string
---@vararg any
---@return string
function util.concat(...)
local str = ""
for _, v in ipairs(arg) do
str = str .. util.strval(v)
end
return str
end
-- alias
util.c = util.concat
-- sprintf implementation
---@param format string
---@vararg any
function util.sprintf(format, ...)
return string.format(format, table.unpack(arg))
end
-- MATH --
-- is a value an integer
---@param x any value
---@return boolean if the number is an integer
function util.is_int(x)
return type(x) == "number" and x == math.floor(x)
end
-- round a number to an integer
---@return integer rounded
function util.round(x)
return math.floor(x + 0.5)
end
-- TIME --
-- current time
---@return integer milliseconds
function util.time_ms()
---@diagnostic disable-next-line: undefined-field
return os.epoch('local')
end
-- current time
---@return number seconds
function util.time_s()
---@diagnostic disable-next-line: undefined-field
return os.epoch('local') / 1000.0
end
-- current time
---@return integer milliseconds
function util.time()
return util.time_ms()
end
-- PARALLELIZATION --
-- protected sleep call so we still are in charge of catching termination
---@param t integer seconds
--- EVENT_CONSUMER: this function consumes events
function util.psleep(t)
---@diagnostic disable-next-line: undefined-field
pcall(os.sleep, t)
end
-- no-op to provide a brief pause (1 tick) to yield
---
--- EVENT_CONSUMER: this function consumes events
function util.nop()
util.psleep(0.05)
end
-- attempt to maintain a minimum loop timing (duration of execution)
---@param target_timing integer minimum amount of milliseconds to wait for
---@param last_update integer millisecond time of last update
---@return integer time_now
-- EVENT_CONSUMER: this function consumes events
function util.adaptive_delay(target_timing, last_update)
local sleep_for = target_timing - (util.time() - last_update)
-- only if >50ms since worker loops already yield 0.05s
if sleep_for >= 50 then
util.psleep(sleep_for / 1000.0)
end
return util.time()
end
-- TABLE UTILITIES --
-- delete elements from a table if the passed function returns false when passed a table element
--
-- put briefly: deletes elements that return false, keeps elements that return true
---@param t table table to remove elements from
---@param f function should return false to delete an element when passed the element: f(elem) = true|false
---@param on_delete? function optional function to execute on deletion, passed the table element to be deleted as the parameter
function util.filter_table(t, f, on_delete)
local move_to = 1
for i = 1, #t do
local element = t[i]
if element ~= nil then
if f(element) then
if t[move_to] == nil then
t[move_to] = element
t[i] = nil
end
move_to = move_to + 1
else
if on_delete then on_delete(element) end
t[i] = nil
end
end
end
end
-- check if a table contains the provided element
---@param t table table to check
---@param element any element to check for
function util.table_contains(t, element)
for i = 1, #t do
if t[i] == element then return true end
end
return false
end
-- MEKANISM POWER --
-- function util.kFE(fe) return fe / 1000.0 end
-- function util.MFE(fe) return fe / 1000000.0 end
-- function util.GFE(fe) return fe / 1000000000.0 end
-- function util.TFE(fe) return fe / 1000000000000.0 end
-- -- FLOATING POINT PRINTS --
-- local function fractional_1s(number)
-- return number == math.round(number)
-- end
-- local function fractional_10ths(number)
-- number = number * 10
-- return number == math.round(number)
-- end
-- local function fractional_100ths(number)
-- number = number * 100
-- return number == math.round(number)
-- end
-- function util.power_format(fe)
-- if fe < 1000 then
-- return string.format("%.2f FE", fe)
-- elseif fe < 1000000 then
-- return string.format("%.3f kFE", kFE(fe))
-- end
-- end
-- WATCHDOG --
-- ComputerCraft OS Timer based Watchdog
---@param timeout number timeout duration
---
--- triggers a timer event if not fed within 'timeout' seconds
function util.new_watchdog(timeout)
---@diagnostic disable-next-line: undefined-field
local start_timer = os.startTimer
---@diagnostic disable-next-line: undefined-field
local cancel_timer = os.cancelTimer
local self = {
timeout = timeout,
wd_timer = start_timer(timeout)
}
---@class watchdog
local public = {}
---@param timer number timer event timer ID
function public.is_timer(timer)
return self.wd_timer == timer
end
-- satiate the beast
function public.feed()
if self.wd_timer ~= nil then
cancel_timer(self.wd_timer)
end
self.wd_timer = start_timer(self.timeout)
end
-- cancel the watchdog
function public.cancel()
if self.wd_timer ~= nil then
cancel_timer(self.wd_timer)
end
end
return public
end
-- LOOP CLOCK --
-- ComputerCraft OS Timer based Loop Clock
---@param period number clock period
---
--- fires a timer event at the specified period, does not start at construct time
function util.new_clock(period)
---@diagnostic disable-next-line: undefined-field
local start_timer = os.startTimer
local self = {
period = period,
timer = nil
}
---@class clock
local public = {}
---@param timer number timer event timer ID
function public.is_clock(timer)
return self.timer == timer
end
-- start the clock
function public.start()
self.timer = start_timer(self.period)
end
return public
end
-- create a new type validator
--
-- can execute sequential checks and check valid() to see if it is still valid
function util.new_validator()
local valid = true
---@class validator
local public = {}
function public.assert_type_bool(value) valid = valid and type(value) == "boolean" end
function public.assert_type_num(value) valid = valid and type(value) == "number" end
function public.assert_type_int(value) valid = valid and type(value) == "number" and value == math.floor(value) end
function public.assert_type_str(value) valid = valid and type(value) == "string" end
function public.assert_type_table(value) valid = valid and type(value) == "table" end
function public.assert_eq(check, expect) valid = valid and check == expect end
function public.assert_min(check, min) valid = valid and check >= min end
function public.assert_min_ex(check, min) valid = valid and check > min end
function public.assert_max(check, max) valid = valid and check <= max end
function public.assert_max_ex(check, max) valid = valid and check < max end
function public.assert_range(check, min, max) valid = valid and check >= min and check <= max end
function public.assert_range_ex(check, min, max) valid = valid and check > min and check < max end
function public.assert_port(port) valid = valid and type(port) == "number" and port >= 0 and port <= 65535 end
function public.valid() return valid end
return public
end
return util