cc-mek-scada/coordinator/ui/components/imatrix.lua
2024-04-28 02:01:40 -04:00

147 lines
7.1 KiB
Lua

local util = require("scada-common.util")
local style = require("coordinator.ui.style")
local core = require("graphics.core")
local Div = require("graphics.elements.div")
local Rectangle = require("graphics.elements.rectangle")
local TextBox = require("graphics.elements.textbox")
local DataIndicator = require("graphics.elements.indicators.data")
local IndicatorLight = require("graphics.elements.indicators.light")
local PowerIndicator = require("graphics.elements.indicators.power")
local StateIndicator = require("graphics.elements.indicators.state")
local VerticalBar = require("graphics.elements.indicators.vbar")
local cpair = core.cpair
local border = core.border
local ALIGN = core.ALIGN
-- new induction matrix view
---@param root graphics_element parent
---@param x integer top left x
---@param y integer top left y
---@param data imatrix_session_db matrix data
---@param ps psil ps interface
---@param id number? matrix ID
local function new_view(root, x, y, data, ps, id)
local label_fg = style.theme.label_fg
local text_fg = style.theme.text_fg
local lu_col = style.lu_colors
local ind_yel = style.ind_yel
local ind_wht = style.ind_wht
local title = "INDUCTION MATRIX"
if type(id) == "number" then title = title .. id end
local matrix = Div{parent=root,fg_bg=style.root,width=33,height=24,x=x,y=y}
-- black has low contrast with dark gray, so if background is black use white instead
local cutout_fg_bg = cpair(util.trinary(style.theme.bg == colors.black, colors.white, style.theme.bg), colors.gray)
TextBox{parent=matrix,text=" ",width=33,height=1,x=1,y=1,fg_bg=cutout_fg_bg}
TextBox{parent=matrix,text=title,alignment=ALIGN.CENTER,width=33,height=1,x=1,y=2,fg_bg=cutout_fg_bg}
local rect = Rectangle{parent=matrix,border=border(1,colors.gray,true),width=33,height=22,x=1,y=3}
local status = StateIndicator{parent=rect,x=10,y=1,states=style.imatrix.states,value=1,min_width=14}
local capacity = PowerIndicator{parent=rect,x=7,y=3,lu_colors=lu_col,label="Capacity:",format="%8.2f",value=0,width=26,fg_bg=text_fg}
local energy = PowerIndicator{parent=rect,x=7,y=4,lu_colors=lu_col,label="Energy: ",format="%8.2f",value=0,width=26,fg_bg=text_fg}
local avg_chg = PowerIndicator{parent=rect,x=7,y=5,lu_colors=lu_col,label="\xb7Average:",format="%8.2f",value=0,width=26,fg_bg=text_fg}
local input = PowerIndicator{parent=rect,x=7,y=6,lu_colors=lu_col,label="Input: ",format="%8.2f",rate=true,value=0,width=26,fg_bg=text_fg}
local avg_in = PowerIndicator{parent=rect,x=7,y=7,lu_colors=lu_col,label="\xb7Average:",format="%8.2f",rate=true,value=0,width=26,fg_bg=text_fg}
local output = PowerIndicator{parent=rect,x=7,y=8,lu_colors=lu_col,label="Output: ",format="%8.2f",rate=true,value=0,width=26,fg_bg=text_fg}
local avg_out = PowerIndicator{parent=rect,x=7,y=9,lu_colors=lu_col,label="\xb7Average:",format="%8.2f",rate=true,value=0,width=26,fg_bg=text_fg}
local trans_cap = PowerIndicator{parent=rect,x=7,y=10,lu_colors=lu_col,label="Max I/O: ",format="%8.2f",rate=true,value=0,width=26,fg_bg=text_fg}
status.register(ps, "computed_status", status.update)
capacity.register(ps, "max_energy", function (val) capacity.update(util.joules_to_fe(val)) end)
energy.register(ps, "energy", function (val) energy.update(util.joules_to_fe(val)) end)
avg_chg.register(ps, "avg_charge", avg_chg.update)
input.register(ps, "last_input", function (val) input.update(util.joules_to_fe(val)) end)
avg_in.register(ps, "avg_inflow", avg_in.update)
output.register(ps, "last_output", function (val) output.update(util.joules_to_fe(val)) end)
avg_out.register(ps, "avg_outflow", avg_out.update)
trans_cap.register(ps, "transfer_cap", function (val) trans_cap.update(util.joules_to_fe(val)) end)
local fill = DataIndicator{parent=rect,x=11,y=12,lu_colors=lu_col,label="Fill: ",format="%7.2f",unit="%",value=0,width=20,fg_bg=text_fg}
local cells = DataIndicator{parent=rect,x=11,y=13,lu_colors=lu_col,label="Cells: ",format="%7d",value=0,width=18,fg_bg=text_fg}
local providers = DataIndicator{parent=rect,x=11,y=14,lu_colors=lu_col,label="Providers:",format="%7d",value=0,width=18,fg_bg=text_fg}
fill.register(ps, "energy_fill", function (val) fill.update(val * 100) end)
cells.register(ps, "cells", cells.update)
providers.register(ps, "providers", providers.update)
local chging = IndicatorLight{parent=rect,x=11,y=16,label="Charging",colors=ind_wht}
local dischg = IndicatorLight{parent=rect,x=11,y=17,label="Discharging",colors=ind_wht}
local max_io = IndicatorLight{parent=rect,x=11,y=18,label="Max I/O Rate",colors=ind_yel}
chging.register(ps, "is_charging", chging.update)
dischg.register(ps, "is_discharging", dischg.update)
max_io.register(ps, "at_max_io", max_io.update)
local charge = VerticalBar{parent=rect,x=2,y=2,fg_bg=cpair(colors.green,colors.gray),height=17,width=4}
local in_cap = VerticalBar{parent=rect,x=7,y=12,fg_bg=cpair(colors.red,colors.gray),height=7,width=1}
local out_cap = VerticalBar{parent=rect,x=9,y=12,fg_bg=cpair(colors.blue,colors.gray),height=7,width=1}
TextBox{parent=rect,text="FILL I/O",x=2,y=20,height=1,width=8,fg_bg=label_fg}
local function calc_saturation(val)
if (type(data.build) == "table") and (type(data.build.transfer_cap) == "number") and (data.build.transfer_cap > 0) then
return val / data.build.transfer_cap
else return 0 end
end
charge.register(ps, "energy_fill", charge.update)
in_cap.register(ps, "last_input", function (val) in_cap.update(calc_saturation(val)) end)
out_cap.register(ps, "last_output", function (val) out_cap.update(calc_saturation(val)) end)
local eta = TextBox{parent=rect,x=11,y=20,width=20,height=1,text="ETA Unknown",alignment=ALIGN.CENTER,fg_bg=style.theme.field_box}
eta.register(ps, "eta_ms", function (eta_ms)
local str, pre = "", util.trinary(eta_ms >= 0, "Full in ", "Empty in ")
local seconds = math.abs(eta_ms) / 1000
local minutes = seconds / 60
local hours = minutes / 60
local days = hours / 24
if math.abs(eta_ms) < 1000 or (eta_ms ~= eta_ms) then
-- really small or NaN
str = "No ETA"
elseif days < 1000 then
days = math.floor(days)
hours = math.floor(hours % 24)
minutes = math.floor(minutes % 60)
seconds = math.floor(seconds % 60)
if days > 0 then
str = days .. "d"
elseif hours > 0 then
str = hours .. "h " .. minutes .. "m"
elseif minutes > 0 then
str = minutes .. "m " .. seconds .. "s"
elseif seconds > 0 then
str = seconds .. "s"
end
str = pre .. str
else
local years = math.floor(days / 365.25)
if years <= 99999999 then
str = pre .. years .. "y"
else
str = pre .. "eras"
end
end
eta.set_value(str)
end)
end
return new_view