cc-mek-scada/graphics/elements/indicators/ledpair.lua
2023-08-30 21:11:57 -04:00

116 lines
3.6 KiB
Lua

-- Indicator LED Pair Graphics Element (two LEDs provide: off, color_a, color_b)
local util = require("scada-common.util")
local element = require("graphics.element")
local flasher = require("graphics.flasher")
---@class indicator_led_pair_args
---@field label string indicator label
---@field off color color for off
---@field c1 color color for #1 on
---@field c2 color color for #2 on
---@field min_label_width? integer label length if omitted
---@field flash? boolean whether to flash when on rather than stay on
---@field period? PERIOD flash period
---@field parent graphics_element
---@field id? string element id
---@field x? integer 1 if omitted
---@field y? integer auto incremented if omitted
---@field fg_bg? cpair foreground/background colors
---@field hidden? boolean true to hide on initial draw
-- new dual LED indicator light
---@nodiscard
---@param args indicator_led_pair_args
---@return graphics_element element, element_id id
local function indicator_led_pair(args)
assert(type(args.label) == "string", "graphics.elements.indicators.ledpair: label is a required field")
assert(type(args.off) == "number", "graphics.elements.indicators.ledpair: off is a required field")
assert(type(args.c1) == "number", "graphics.elements.indicators.ledpair: c1 is a required field")
assert(type(args.c2) == "number", "graphics.elements.indicators.ledpair: c2 is a required field")
if args.flash then
assert(util.is_int(args.period), "graphics.elements.indicators.ledpair: period is a required field if flash is enabled")
end
-- single line
args.height = 1
-- determine width
args.width = math.max(args.min_label_width or 0, string.len(args.label)) + 2
-- flasher state
local flash_on = true
-- blit translations
local co = colors.toBlit(args.off)
local c1 = colors.toBlit(args.c1)
local c2 = colors.toBlit(args.c2)
-- create new graphics element base object
local e = element.new(args)
-- init value for initial check in on_update
e.value = 1
-- called by flasher when enabled
local function flash_callback()
e.w_set_cur(1, 1)
if flash_on then
if e.value == 2 then
e.w_blit("\x8c", c1, e.fg_bg.blit_bkg)
elseif e.value == 3 then
e.w_blit("\x8c", c2, e.fg_bg.blit_bkg)
end
else
e.w_blit("\x8c", co, e.fg_bg.blit_bkg)
end
flash_on = not flash_on
end
-- on state change
---@param new_state integer indicator state
function e.on_update(new_state)
local was_off = e.value <= 1
e.value = new_state
e.w_set_cur(1, 1)
if args.flash then
if was_off and (new_state > 1) then
flash_on = true
flasher.start(flash_callback, args.period)
elseif new_state <= 1 then
flash_on = false
flasher.stop(flash_callback)
e.w_blit("\x8c", co, e.fg_bg.blit_bkg)
end
elseif new_state == 2 then
e.w_blit("\x8c", c1, e.fg_bg.blit_bkg)
elseif new_state == 3 then
e.w_blit("\x8c", c2, e.fg_bg.blit_bkg)
else
e.w_blit("\x8c", co, e.fg_bg.blit_bkg)
end
end
-- set indicator state
---@param val integer indicator state
function e.set_value(val) e.on_update(val) end
-- write label and initial indicator light
e.on_update(1)
if string.len(args.label) > 0 then
e.w_set_cur(3, 1)
e.w_write(args.label)
end
return e.complete()
end
return indicator_led_pair