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conky-config
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conky-config/drawing/processor.lua

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local compound_dial = require 'compound_dial'
local text_table = require 'text_table'
local i_o = require 'i_o'
local common = require 'common'
local geometry = require 'geometry'
local cpu = require 'sys'
local pure = require 'pure'
local __math_floor = math.floor
return function(update_freq, config, main_state, point)
local DIAL_INNER_RADIUS = 30
local DIAL_OUTER_RADIUS = 42
local DIAL_THICKNESS = 5.5
local SEPARATOR_SPACING = 20
local TEXT_SPACING = 22
local PLOT_SECTION_BREAK = 23
local PLOT_HEIGHT = 56
local TABLE_SECTION_BREAK = 20
local TABLE_HEIGHT = 114
-----------------------------------------------------------------------------
-- processor state
local mod_state = cpu.read_cpu_loads(cpu.init_cpu_loads())
local update_state = function()
mod_state = cpu.read_cpu_loads(mod_state)
end
-----------------------------------------------------------------------------
-- cores (loads and temps)
local ncpus = cpu.get_cpu_number()
local ncores = cpu.get_core_number()
local nthreads = ncpus / ncores
local create_core = function(x, y)
return {
loads = common.make_compound_dial(
x,
y,
DIAL_OUTER_RADIUS,
DIAL_INNER_RADIUS,
DIAL_THICKNESS,
80,
nthreads
),
coretemp = common.make_text_circle(
x,
y,
DIAL_INNER_RADIUS - 2,
'%s°C',
80,
__math_floor
)
}
end
local mk_cores = function(y)
local coretemp_paths = cpu.get_coretemp_paths()
local cores = {}
-- TODO what happens when the number of cores changes?
for c = 1, ncores do
local dial_x = point.x + DIAL_OUTER_RADIUS +
(geometry.SECTION_WIDTH - 2 * DIAL_OUTER_RADIUS) * (c - 1) / 3
local dial_y = y + DIAL_OUTER_RADIUS
cores[c] = create_core(dial_x, dial_y)
end
local update = function()
for _, load_data in pairs(mod_state) do
compound_dial.set(
cores[load_data.conky_core_id].loads,
load_data.conky_thread_id,
load_data.percent_active * 100
)
end
for conky_core_id, path in pairs(coretemp_paths) do
local temp = __math_floor(0.001 * i_o.read_file(path, nil, '*n'))
common.text_circle_set(cores[conky_core_id].coretemp, temp)
end
end
local static = function(cr)
for i = 1, #cores do
common.text_circle_draw_static(cores[i].coretemp, cr)
compound_dial.draw_static(cores[i].loads, cr)
end
end
local dynamic = function(cr)
for i = 1, #cores do
common.text_circle_draw_dynamic(cores[i].coretemp, cr)
compound_dial.draw_dynamic(cores[i].loads, cr)
end
end
return common.mk_acc(
geometry.SECTION_WIDTH,
DIAL_OUTER_RADIUS * 2,
update,
static,
dynamic
)
end
-----------------------------------------------------------------------------
-- HWP status
local mk_hwp_freq = function(y)
local hwp_paths = cpu.get_hwp_paths()
local cpu_status = common.make_text_rows(
point.x,
y,
geometry.SECTION_WIDTH,
TEXT_SPACING,
{'HWP Preference', 'Ave Freq'}
)
local update = function()
-- For some reason this call is slow (querying anything with pstate in
-- general seems slow), but I also don't need to see an update every
-- cycle, hence the trigger
if main_state.trigger10 == 0 then
common.text_rows_set(cpu_status, 1, cpu.read_hwp(hwp_paths))
end
common.text_rows_set(cpu_status, 2, cpu.read_freq())
end
local static = pure.partial(common.text_rows_draw_static, cpu_status)
local dynamic = pure.partial(common.text_rows_draw_dynamic, cpu_status)
return common.mk_acc(
geometry.SECTION_WIDTH,
TEXT_SPACING,
update,
static,
dynamic
)
end
-----------------------------------------------------------------------------
-- frequency
local mk_sep = pure.partial(
common.mk_seperator,
geometry.SECTION_WIDTH,
point.x
)
-----------------------------------------------------------------------------
-- total load plot
local mk_load_plot = function(y)
local total_load = common.make_tagged_percent_timeseries(
point.x,
y,
geometry.SECTION_WIDTH,
PLOT_HEIGHT,
PLOT_SECTION_BREAK,
"Total Load",
update_freq
)
local update = function()
local s = 0
for i = 1, #mod_state do
s = s + mod_state[i].percent_active
end
common.tagged_percent_timeseries_set(total_load, s / ncpus * 100)
end
local static = pure.partial(common.tagged_percent_timeseries_draw_static, total_load)
local dynamic = pure.partial(common.tagged_percent_timeseries_draw_dynamic, total_load)
return common.mk_acc(
geometry.SECTION_WIDTH,
PLOT_HEIGHT + PLOT_SECTION_BREAK,
update,
static,
dynamic
)
end
-----------------------------------------------------------------------------
-- cpu top table
local mk_tbl = function(y)
local NUM_ROWS = 5
local TABLE_CONKY = pure.map_n(
function(i) return {pid = '${top pid '..i..'}', cpu = '${top cpu '..i..'}'} end,
NUM_ROWS
)
local tbl = common.make_text_table(
point.x,
y,
geometry.SECTION_WIDTH,
TABLE_HEIGHT,
NUM_ROWS,
'CPU (%)'
)
local update = function(state_)
for r = 1, NUM_ROWS do
local pid = i_o.conky(TABLE_CONKY[r].pid, '(%d+)') -- may have leading spaces
if pid ~= '' then
text_table.set(tbl, 1, r, i_o.read_file('/proc/'..pid..'/comm', '(%C+)'))
text_table.set(tbl, 2, r, pid)
text_table.set(tbl, 3, r, i_o.conky(TABLE_CONKY[r].cpu))
end
end
return state_
end
local static = pure.partial(text_table.draw_static, tbl)
local dynamic = pure.partial(text_table.draw_dynamic, tbl)
return common.mk_acc(
geometry.SECTION_WIDTH,
TABLE_HEIGHT,
update,
static,
dynamic
)
end
-----------------------------------------------------------------------------
-- main functions
local rbs = common.reduce_blocks_(
'PROCESSOR',
point,
geometry.SECTION_WIDTH,
{
{mk_cores, config.show_cores, TEXT_SPACING},
{mk_hwp_freq, config.show_stats, SEPARATOR_SPACING},
},
common.mk_section(
SEPARATOR_SPACING,
mk_sep,
{mk_load_plot, config.show_plot, TABLE_SECTION_BREAK},
{mk_tbl, config.show_table, 0}
)
)
return pure.map_at(
"update",
function(f)
return function()
update_state()
f()
end
end,
rbs
)
end
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