Conky 1.10 - Conky lua Horloge, CPU x6 et Disques
- Objet : conky par l'exemple
- Niveau requis :
- Commentaires : page à piller.
- Débutant, à savoir : Utiliser GNU/Linux en ligne de commande, tout commence là !.
- prenez soin d'éditer les fichiers pour les adapter à votre système
Conky lua Horloge, CPU x6 et Disques
Fichier .conkyrc :
- .conkyrc
conky.config = { background = false, update_interval = 1, cpu_avg_samples = 2, net_avg_samples = 2, override_utf8_locale = true, double_buffer = true, no_buffers = true, text_buffer_size = 2048, temperature_unit = 'fahrenheit', own_window = true, own_window_type = 'normal', own_window_transparent = true, own_window_argb_visual = true, own_window_hints = 'undecorated,sticky,skip_taskbar,skip_pager,below', border_inner_margin = 0, border_outer_margin = 0, minimum_width = 200, minimum_height = 800, alignment = 'top_right', gap_x = 35, gap_y = 55, draw_shades = false, draw_outline = false, draw_borders = false, draw_graph_borders = false, use_xft = true, font = 'caviar dreams:size=8', xftalpha = 0.5 , uppercase = false, temperature_unit = 'celsius', default_color = 'FFFFFF', lua_load = '~/.conky/clock_rings.lua', lua_draw_hook_pre = 'clock_rings', } conky.text = [[ ${voffset 8}${color 1B708D}${font caviar dreams:size=16}${time %A}${font}${voffset -8}${alignr 0}${color FFFFFF}${font caviar dreams:bold:size=38}${time %e}${font} ${color FFFFFF}${voffset -30}${color FFFFFF}${font caviar dreams:size=18}${time %b}${font}${voffset -3} ${color FFFFFF}${font caviar dreams:size=20}${time %Y}${font}${color 1B708D}${hr} ${image ~/.conky/debian-logo.png -p 76,128 -s 40x40} ${goto 5}${voffset 125} ${font caviar dreams:bold:size=7}${voffset 5}${goto 20}${color FFFFFF}${freq_g cpu0} Ghz${goto 78}${alignr 330}${cpu cpu0}% ${font caviar dreams:bold:size=6}${voffset 3}${goto 20}${color 1B708D}CPU 1${goto 78}${alignr 330}${color FFFFFF}${cpu cpu1}% ${font caviar dreams:bold:size=6}${voffset 3}${goto 20}${color 1B708D}CPU 2${goto 78}${alignr 330}${color FFFFFF}${cpu cpu2}% ${font caviar dreams:bold:size=6}${voffset 3}${goto 20}${color 1B708D}CPU 3${goto 78}${alignr 330}${color FFFFFF}${cpu cpu3}% ${font caviar dreams:bold:size=6}${voffset 3}${goto 20}${color 1B708D}CPU 4${goto 78}${alignr 330}${color FFFFFF}${cpu cpu4}% ${font caviar dreams:bold:size=6}${voffset 3}${goto 20}${color 1B708D}CPU 5${goto 78}${alignr 330}${color FFFFFF}${cpu cpu5}% ${font caviar dreams:bold:size=6}${voffset 3}${goto 20}${color 1B708D}CPU 6${goto 78}${alignr 330}${color FFFFFF}${cpu cpu6}% ${font caviar dreams:bold:size=10}${color 1B708D}${goto 75}${voffset 3}CPU ${font caviar dreams:size=7}${goto 5}${voffset 145}Root:${color FFFFFF}${alignr 310}${fs_used /} / ${fs_size /} ${font caviar dreams:size=7}${goto 5}${voffset 3}${color 1B708D}Home:${alignr 310}${color FFFFFF}${fs_used /home} / ${fs_size /home} ${font caviar dreams:bold:size=10}${color 1B708D}${goto 34}${voffset 10}HARD DRIVE ${goto 5}${voffset 55} ${color FFFFFF}${font caviar dreams:size=8}Uptime: ${uptime_short} ${color FFFFFF}${font caviar dreams:size=8}Processes: ${processes} ${color FFFFFF}${font caviar dreams:size=8}Running: ${running_processes} ${color 1B708D}${font caviar dreams:size=8}${alignr}${exec cat /etc/issue.net} $machine ${color 1B708D}${font caviar dreams:size=8}${alignr}Kernel: ${kernel} ]]
Fichier Clock_rings.lua :
- clock_rings.lua
--[[ Clock Rings by Linux Mint (2011) reEdited by despot77 This script draws percentage meters as rings, and also draws clock hands if you want! It is fully customisable; all options are described in the script. This script is based off a combination of my clock.lua script and my rings.lua script. IMPORTANT: if you are using the 'cpu' function, it will cause a segmentation fault if it tries to draw a ring straight away. The if statement on line 145 uses a delay to make sure that this doesn't happen. It calculates the length of the delay by the number of updates since Conky started. Generally, a value of 5s is long enough, so if you update Conky every 1s, use update_num>5 in that if statement (the default). If you only update Conky every 2s, you should change it to update_num>3; conversely if you update Conky every 0.5s, you should use update_num>10. ALSO, if you change your Conky, is it best to use "killall conky; conky" to update it, otherwise the update_num will not be reset and you will get an error. To call this script in Conky, use the following (assuming that you save this script to ~/scripts/rings.lua): lua_load ~/scripts/clock_rings.lua lua_draw_hook_pre clock_rings Changelog: + v1.0 -- Original release (30.09.2009) v1.1p -- Jpope edit londonali1010 (05.10.2009) *v 2011mint -- reEdit despot77 (18.02.2011) ]] settings_table = { { -- Edit this table to customise your rings. -- You can create more rings simply by adding more elements to settings_table. -- "name" is the type of stat to display; you can choose from 'cpu', 'memperc', 'fs_used_perc', 'battery_used_perc'. name='clock', -- "arg" is the argument to the stat type, e.g. if in Conky you would write ${cpu cpu0}, 'cpu0' would be the argument. If you would not use an argument in the Conky variable, use ''. arg='heure', -- "max" is the maximum value of the ring. If the Conky variable outputs a percentage, use 100. max=12, -- "bg_colour" is the colour of the base ring. bg_colour=0xffffff, -- "bg_alpha" is the alpha value of the base ring. bg_alpha=0.1, -- "fg_colour" is the colour of the indicator part of the ring. fg_colour=0x1B708D, -- "fg_alpha" is the alpha value of the indicator part of the ring. fg_alpha=0.2, -- "x" and "y" are the x and y coordinates of the centre of the ring, relative to the top left corner of the Conky window. x=100, y=150, -- "radius" is the radius of the ring. radius=50, -- "thickness" is the thickness of the ring, centred around the radius. thickness=5, -- "start_angle" is the starting angle of the ring, in degrees, clockwise from top. Value can be either positive or negative. start_angle=0, -- "end_angle" is the ending angle of the ring, in degrees, clockwise from top. Value can be either positive or negative, but must be larger than start_angle. end_angle=360 }, { name='clock', arg='minutes', max=60, bg_colour=0xffffff, bg_alpha=0.1, fg_colour=0x1B708D, fg_alpha=0.4, x=100, y=150, radius=56, thickness=5, start_angle=0, end_angle=360 }, { name='clock', arg='secondes', max=60, bg_colour=0xffffff, bg_alpha=0.1, fg_colour=0x1B708D, fg_alpha=0.6, x=100, y=150, radius=62, thickness=5, start_angle=0, end_angle=360 }, { name='time', arg='%d', max=31, bg_colour=0xffffff, bg_alpha=0.1, fg_colour=0x1B708D, fg_alpha=0.8, x=100, y=150, radius=70, thickness=5, start_angle=-90, end_angle=90 }, { name='time', arg='%m', max=12, bg_colour=0xffffff, bg_alpha=0.1, fg_colour=0x1B708D, fg_alpha=1, x=100, y=150, radius=76, thickness=5, start_angle=-90, end_angle=90 }, { name='cpu', arg='cpu0', max=110, bg_colour=0xDCDCDC, bg_alpha=0.1, fg_colour=0x1B708D, fg_alpha=0.8, x=100, y=350, radius=97, thickness=4, start_angle=0, end_angle=240 }, { name='cpu', arg='cpu1', max=100, bg_colour=0xDCDCDC, bg_alpha=0.6, fg_colour=0x1B708D, fg_alpha=0.8, x=100, y=350, radius=86, thickness=13, start_angle=0, end_angle=240 }, { name='cpu', arg='cpu2', max=100, bg_colour=0xDCDCDC, bg_alpha=0.5, fg_colour=0x1B708D, fg_alpha=0.8, x=100, y=350, radius=71, thickness=12, start_angle=0, end_angle=240 }, { name='cpu', arg='cpu3', max=100, bg_colour=0xDCDCDC, bg_alpha=0.4, fg_colour=0x1B708D, fg_alpha=0.8, x=100, y=350, radius=57, thickness=11, start_angle=0, end_angle=240 }, { name='cpu', arg='cpu4', max=100, bg_colour=0xDCDCDC, bg_alpha=0.3, fg_colour=0x1B708D, fg_alpha=0.8, x=100, y=350, radius=44, thickness=10, start_angle=0, end_angle=240 }, { name='cpu', arg='cpu5', max=100, bg_colour=0xDCDCDC, bg_alpha=0.2, fg_colour=0x1B708D, fg_alpha=0.8, x=100, y=350, radius=32, thickness=9, start_angle=0, end_angle=240 }, { name='cpu', arg='cpu6', max=100, bg_colour=0xDCDCDC, bg_alpha=0.1, fg_colour=0x1B708D, fg_alpha=0.8, x=100, y=350, radius=21, thickness=8, start_angle=0, end_angle=240 }, { name='fs_used_perc', arg='/', max=100, bg_colour=0xDCDCDC, bg_alpha=0.2, fg_colour=0x1B708D, fg_alpha=0.8, x=110, y=550, radius=40, thickness=10, start_angle=0, end_angle=240 }, { name='fs_used_perc', arg='/home', max=100, bg_colour=0xDCDCDC, bg_alpha=0.2, fg_colour=0x1B708D, fg_alpha=0.8, x=110, y=550, radius=28, thickness=10, start_angle=0, end_angle=240 }, } -- Use these settings to define the origin and extent of your clock. clock_r=65 -- "clock_x" and "clock_y" are the coordinates of the centre of the clock, in pixels, from the top left of the Conky window. clock_x=100 clock_y=150 show_seconds=true require 'cairo' function rgb_to_r_g_b(colour,alpha) return ((colour / 0x10000) % 0x100) / 255., ((colour / 0x100) % 0x100) / 255., (colour % 0x100) / 255., alpha end function draw_ring(cr,t,pt) local w,h=conky_window.width,conky_window.height local xc,yc,ring_r,ring_w,sa,ea=pt['x'],pt['y'],pt['radius'],pt['thickness'],pt['start_angle'],pt['end_angle'] local bgc, bga, fgc, fga=pt['bg_colour'], pt['bg_alpha'], pt['fg_colour'], pt['fg_alpha'] local angle_0=sa*(2*math.pi/360)-math.pi/2 local angle_f=ea*(2*math.pi/360)-math.pi/2 local t_arc=t*(angle_f-angle_0) -- Draw background ring cairo_arc(cr,xc,yc,ring_r,angle_0,angle_f) cairo_set_source_rgba(cr,rgb_to_r_g_b(bgc,bga)) cairo_set_line_width(cr,ring_w) cairo_stroke(cr) -- Draw indicator ring cairo_arc(cr,xc,yc,ring_r,angle_0,angle_0+t_arc) cairo_set_source_rgba(cr,rgb_to_r_g_b(fgc,fga)) cairo_stroke(cr) end function draw_clock_hands(cr,xc,yc) local secs,mins,hours,secs_arc,mins_arc,hours_arc local xh,yh,xm,ym,xs,ys secs=os.date("%S") mins=os.date("%M") hours=os.date("%I") secs_arc=(2*math.pi/60)*secs mins_arc=(2*math.pi/60)*mins+secs_arc/60 hours_arc=(2*math.pi/12)*hours+mins_arc/12 -- Draw hour hand xh=xc+0.7*clock_r*math.sin(hours_arc) yh=yc-0.7*clock_r*math.cos(hours_arc) cairo_move_to(cr,xc,yc) cairo_line_to(cr,xh,yh) cairo_set_line_cap(cr,CAIRO_LINE_CAP_ROUND) cairo_set_line_width(cr,5) cairo_set_source_rgba(cr,1.0,1.0,1.0,1.0) cairo_stroke(cr) -- Draw minute hand xm=xc+0.85*clock_r*math.sin(mins_arc) ym=yc-0.85*clock_r*math.cos(mins_arc) cairo_move_to(cr,xc,yc) cairo_line_to(cr,xm,ym) cairo_set_line_width(cr,3) cairo_stroke(cr) -- Draw seconds hand if show_seconds then xs=xc+clock_r*math.sin(secs_arc) ys=yc-clock_r*math.cos(secs_arc) cairo_move_to(cr,xc,yc) cairo_line_to(cr,xs,ys) cairo_set_line_width(cr,1) cairo_stroke(cr) end end function conky_clock_rings() local function setup_rings(cr,pt) local secs, mins, hours, mins_secs, hours_mins local str='' local value=0 if pt['name']=='clock' then secs=os.date("%S") mins=os.date("%M") hours=os.date("%I") mins_secs=mins+secs/60 hours_mins=hours+mins/60 if hours_mins >= 12 then hours_mins=hours_mins-12 end if pt['arg']=="heure" then str=hours_mins elseif pt['arg']=="minutes" then str=mins_secs else str=secs end else str=string.format('${%s %s}',pt['name'],pt['arg']) str=conky_parse(str) end value=tonumber(str) if value==nil then -- Gestion du problème de séparateur décimale str=conky_parse(str):gsub("%.",",") value=tonumber(str) end if value == nil then value = 0 end pct=value/pt['max'] draw_ring(cr,pct,pt) end -- Check that Conky has been running for at least 5s if conky_window==nil then return end local cs=cairo_xlib_surface_create(conky_window.display,conky_window.drawable,conky_window.visual, conky_window.width,conky_window.height) local cr=cairo_create(cs) local updates=conky_parse('${updates}') update_num=tonumber(updates) if update_num>5 then for i in pairs(settings_table) do setup_rings(cr,settings_table[i]) end end draw_clock_hands(cr,clock_x,clock_y) end
Logo Debian au centre de la pendule (debian-logo.png):
