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Thread: Post your .conkyrc files w/ screenshots

  1. #22121
    Join Date
    Jun 2013
    Beans
    0

    Re: Post your .conkyrc files w/ screenshots

    Hi, i am working with templates. Is there any possibility to get a line break here? I know it is possible with an \ in the TEXT-area...but templates are in the config-area and the \ is not working here.

  2. #22122
    Join Date
    Apr 2009
    Location
    Decatur, Il.
    Beans
    129
    Distro
    Ubuntu 12.04 Precise Pangolin

    Re: Post your .conkyrc files w/ screenshots

    Pretty sure you're right, I had put in the sensor one and it gave me a reading similar to my proccessor temp, but when I tried the hddtemp it gave me a lower temp that seemed reasonable.

    My partition is on sda7 though so I just changed the code accordingly... thanks very much for the help!!!!


    Ok sorry one more problem then I'm done, for reading the battery state the conky I am using uses:

    Code:
    Battery${font}${GOTO 1270}:  ${battery_percent} %   -   ${acpiacadapter}
    and parses /proc/acpi/battery/BAT0/state, but the file is not found. After some searcing I found someone said it's located in /sys/class/power_supply/BAT0.

    How might I go about changing this to read the proper state?
    Last edited by Lateralus138; June 27th, 2013 at 03:03 PM.
    We are 138

  3. #22123
    Join Date
    Aug 2010
    Location
    Detachment 7
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    Hidden!

    Re: Post your .conkyrc files w/ screenshots

    A question to the Conky guru's among us. This is one of those times I'm not even sure how to ask the question, by-the-way.

    First off, I have some flicker in the top Conky. Nothing major, but every once in a while it will flicker for a few seconds. (2-5 seconds) I can live with it, but if it's an easy fix I'd like to fix it. I'm running Fluxbox, and Compton as the composite mgr.

    Second and more tricky, is the led graphs lua file I'm using. I've noticed that I can't evenly space out the bars all the way across the top of the desktop. I'm not even close to lua fluency, and when I try to make them all the same size, with the same spacing between them, some just disappear completely and no matter what (x) (y) coordinates I can't get them to work or appear. The scrot below will show you the best I've gotten it to work. I'm working with a 1920x1080 screen res. The Conky I've been trying to make is just a remake of McLovins bars Conky except instead of it being vertical, I'd like to try something horizontal. Is this possible?

    I'll include the Conkyrc and lua files for perusal by someone a lot smarter than me! Any help appreciated! It's just Conky, so no emergency or "must have answers RIGHT NOW" required. I've tried searching through the forum here and at #! and VSIDO.org. I've also tried to "doctor" it up myself but to no avail. So I'm breaking down and asking for help. I just can't quite grasp why I can't put the bars where I want using the (x) and (y) coordinate statements in the lua file for each representative bar I want to display on the screen. Like I said, any help appreciated but no emergency or hurry required. Conky is just a really fun distraction for me!

    Here's the scrot;



    The Conky;

    Code:
    ##################################################
    # killall conky && conky -c /home/jed/Conky/sysledconkyrc &
    ##################################################
    background yes
    update_interval 1
    double_buffer yes
    no_buffers yes
    imlib_cache_size 0
    override_utf8_locale yes
    own_window yes
    own_window_type normal
    own_window_transparent yes
    own_window_hints undecorate,sticky,skip_taskbar,skip_pager,below
    own_window_class conky
    own_window_title horizleds
    border_inner_margin 0
    border_outer_margin 0
    minimum_size 1920 55
    alignment tl
    gap_x 5
    gap_y 5
    default_color 4B60B4
    text_buffer_size 512
    use_xft yes
    xftfont monofur:bold:size=11
    xftalpha 1
    cpu_avg_samples 2
    net_avg_samples 1
    
    lua_load /home/jed/Conky/LUA/leds.lua
    lua_draw_hook_post main_bars
    
    TEXT
    
    
    ${goto 15}MOBO Temp ${color ff6100}${hwmon 2 temp 2}°C${color 4B60B4}${goto 135}|${goto 160}CPU Socket Temp ${color ff6100}${hwmon 1 temp 1}°C${voffset -15}${color 4B60B4} ${goto 1050}Kernel: ${kernel} ${goto 1420}Up:${color ff6100} ${uptime}${color 4B60B4}${goto 1630}${scroll 40 1${execi 2600 cat /etc/issue.net}-VSIDO}${goto 365}${color 4B60B4}${voffset 15}Avg CPU Use: ${color 3DBA2F}${cpu cpu0}% ${color 4B60B4}${goto 483}|${goto 500}${color 4B60B4}RAM Use:${color 3DBA2F}${mem} / ${memmax}${color 4B60B4}${goto 735}Bat:${color 3DBA2F}${battery_percent BAT0}% ${color ff6100}${battery_time BAT0}${color 4B60B4}${goto 875}|${goto 900}WiFi Signal: ${color 3DBA2F}${wireless_link_qual_perc wlan0}%
    The leds.lua;

    Code:
    --[[ BARGRAPH WIDGET
    	v1.3 by wlourf (03 march 2010)
    	This widget draw a simple bar like (old) equalizers on hi-fi systems.
    	http://u-scripts.blogspot.com/
            Tweaked by McLovin, then borked by jedi
    	The arguments are :
    	- "name" is the type of stat to display; you can choose from 'cpu', 'memperc', 'fs_used_perc', 'battery_used_perc'...
    	  or you can set it to "" if you want to display a numeric value with arg=numeric_value
        - "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 ''.
    	- "max" is the maximum value of the bar. If the Conky variable outputs a percentage, use 100.
    	- "nb_blocks" is the umber of block to draw
    	- "cap" id the cap of a block, possibles values are CAIRO_LINE_CAP_ROUND , CAIRO_LINE_CAP_SQUARE or CAIRO_LINE_CAP_BUTT
    	  see http://www.cairographics.org/samples/set_line_cap/
    	- "xb" and "yb" are the coordinates of the bottom left point of the bar, or the center of the circle if radius>0
    	- "w" and "h" are the width and the height of a block (without caps), w has no effect for "circle" bar
    	- "space" is the space betwwen two blocks, can be null or negative
    	- "bgc" and "bga" are background colors and alpha when the block is not LIGHT OFF
    	- "fgc" and "fga" are foreground colors and alpha when the block is not LIGHT ON
    	- "alc" and "ala" are foreground colors and alpha when the block is not LIGHT ON and ALARM ON
    	- "alarm" is the value where blocks LIGHT ON are in a different color (values from 0 to 100)
    	- "led_effect" true or false : to show a block with a led effect
    	- "led_alpha" alpha of the center of the led (values from 0 to 1)
    	- "smooth" true or false : colors in the bar has a smooth effect
    	- "mid_color",mid_alpha" : colors of the center of the bar (mid_color can to be set to nil)
    	- "rotation" : angle of rotation of the bar (values are 0 to 360 degrees). 0 = vertical bar, 90 = horizontal bar
    	- "radius" : draw the bar on a circle (it's no more a circle, radius = 0 to keep bars)
    	- "angle_bar"  : if radius>0 angle_bar is the angle of the bar
    v1.0 (10 Feb. 2010) original release
    v1.1 (13 Feb. 2010) numeric values can be passed instead conky stats with parameters name="", arg = numeric_value
    v1.2 (28 Feb. 2010) just renamed the widget to bargraph
    v1.3 (03 March 2010) added parameters radius & angle_bar to draw the bar in a circular way
    ]]
    
    require 'cairo'
    
    ----------------START OF PARAMETERS ----------
    function conky_main_bars()
    	local bars_settings={
    		{	--[ Graph for MOBO Temp ]--
    			name="hwmon 2 temp 2",
    			arg="hwmon 2 temp 2",
    			max=100,
    			alarm=40,
    			bg_colour={0x000000,0.75},
    			bg_led={0x3c3c3c,0.5},
    			fg_colour={0x000000,1},
    			fg_led={0x48a3fd,1},
    			alarm_colour={0xff6100,0},
    		    alarm_led={0xff6100,1},
    			blocks=35,
    			x=10, y=20,
    			height=2,width=10,
    			angle=90,
    			led_effect="e",
    			space=1,
    			cap="r",
    			},	
    		{	--[ Graph for CPU Socket Temp ]--
    			name="hwmon 1 temp 1",
    			arg="hwmon 1 temp 1",
    			max=100,
    			alarm=40,
    			bg_colour={0x000000,0.75},
    			bg_led={0x3c3c3c,0.5},
    			fg_colour={0x000000,1},
    			fg_led={0x48a3fd,1},
    			alarm_colour={0xff6100,0},
    		    alarm_led={0xff6100,1},
    			blocks=35,
    			x=175, y=20,
    			height=2,width=10,
    			angle=90,
    			led_effect="e",
    			space=1,
    			cap="r",
    			},	
    		{	--[ Graph for CPU Socket Temp ]--
    			name="cpu",
    			arg="cpu0",
    			max=100,
    			alarm=100,
    			bg_colour={0x000000,0.75},
    			bg_led={0x3c3c3c,0.5},
    			fg_colour={0x000000,1},
    			fg_led={0x48a3fd,1},
    			alarm_colour={0xff0000,0},
    		    alarm_led={0xff0000,1},
    			blocks=35,
    			x=366, y=20,
    			height=2,width=10,
    			angle=90,
    			led_effect="e",
    			space=1,
    			cap="r",
    			},	
    		{	--[ Graph for Memory ]--
    			name="memperc",
    			arg="",
    			max=100,
    			alarm=60,
    			bg_colour={0x000000,0.75},
    			bg_led={0x3c3c3c,0.5},
    			fg_colour={0x000000,1},
    			fg_led={0x48a3fd,1},
    			alarm_colour={0xff0000,0},
    		    alarm_led={0xff0000,1},
    			x=510,y=20,
    			blocks=50,
    			space=1,
    			height=2,width=10,
    			angle=90,
    			led_effect="e",
    			cap="r",
    			},
    --[[		{	--[ Graph for Root ]--
    			name="fs_used_perc",
    			arg="/",
    			max=100,
    			alarm=75,
    			bg_colour={0x000000,0.75},
    			bg_led={0x3c3c3c,0.5},
    			fg_colour={0x000000,1},
    			fg_led={0x48a3fd,1},
    			alarm_colour={0xff0000,0},
    		    alarm_led={0xff0000,1},
    			blocks=35,
    			x=1260, y=20,
    			height=2,width=10,
    			angle=90,
    			led_effect="e",
    			space=1,
    			cap="r",
    			},	
    		{	--[ Graph for Home ]--
    			name="fs_used_perc",
    			arg="/home",
    			max=100,
    			alarm=75,
    			bg_colour={0x000000,0.75},
    			bg_led={0x3c3c3c,0.5},
    			fg_colour={0x000000,1},
    			fg_led={0x48a3fd,1},
    			alarm_colour={0xff0000,0},
    		    alarm_led={0xff0000,1},
    			blocks=35,
    			x=610, y=20,
    			height=2,width=10,
    			angle=90,
    			led_effect="e",
    			space=1,
    			cap="r",
    			},	
    ]]		{	--[ Graph for WiFi Signal strength ]--
    			name="wireless_link_qual_perc",
    			arg="wlan0",
    			max=100,
    			alarm=100,
    			bg_colour={0x000000,0.75},
    			bg_led={0x3c3c3c,0.5},
    			fg_colour={0x000000,1},
    			fg_led={0x48a3fd,1},
    			alarm_colour={0xff0000,0},
    		    alarm_led={0xff0000,1},
    			blocks=40,
    			x=900, y=20,
    			height=2,width=10,
    			angle=90,
    			led_effect="e",
    			space=1,
    			cap="r",
    			},	
    		{	--[ Graph for Battery power ]--
    			name="battery_percent",
    			arg="BAT0",
    			max=100,
    			alarm=100,
    			bg_colour={0x000000,0.75},
    			bg_led={0x3c3c3c,0.5},
    			fg_colour={0x000000,1},
    			fg_led={0x48a3fd,1},
    			alarm_colour={0xff0000,0},
    		    alarm_led={0xff0000,1},
    			blocks=35,
    			x=750, y=20,
    			height=2,width=10,
    			angle=90,
    			led_effect="e",
    			space=1,
    			cap="r",
    			},	
    		 }
    -----------END OF PARAMETERS--------------	
    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)
    
    	cr = cairo_create(cs)
    	--prevent segmentation error when reading cpu state
        if tonumber(conky_parse('${updates}'))>3 then
            for i in pairs(bars_settings) do
    
            	draw_multi_bar_graph(bars_settings[i])
    
            end
        end
    	cairo_destroy(cr)
    	cairo_surface_destroy(cs)
    
    end
    
    
    
    function draw_multi_bar_graph(t)
    	cairo_save(cr)
    	--check values
    	if t.name==nil and t.arg==nil then
    		print ("No input values ... use parameters 'name' with 'arg' or only parameter 'arg' ")
    		return
    	end
    	if t.max==nil then
    		print ("No maximum value defined, use 'max'")
    		return
    	end
    	if t.name==nil then t.name="" end
    	if t.arg==nil then t.arg="" end
    
    	--set default values
    	if t.x == nil		then t.x = conky_window.width/2 end
    	if t.y == nil		then t.y = conky_window.height/2 end
    	if t.blocks == nil	then t.blocks=10 end
    	if t.height == nil	then t.height=10 end
    	if t.angle == nil 	then t.angle=0 end
    	t.angle = t.angle*math.pi/180
    	--line cap style
    	if t.cap==nil		then t.cap = "b" end
    	local cap="b"
    	for i,v in ipairs({"s","r","b"}) do
    		if v==t.cap then cap=v end
    	end
    	delta=0
    	if t.cap=="r" or t.cap=="s" then delta = t.height end
    	if cap=="s" then 	cap = CAIRO_LINE_CAP_SQUARE
    	elseif cap=="r" then
    		cap = CAIRO_LINE_CAP_ROUND
    	elseif cap=="b" then
    		cap = CAIRO_LINE_CAP_BUTT
    	end
    	--end line cap style
    	--if t.led_effect == nil	then t.led_effect="r" end
    	if t.width == nil	then t.width=20 end
    	if t.space == nil	then t.space=2 end
    	if t.radius == nil	then t.radius=0 end
    	if t.angle_bar == nil	then t.angle_bar=0 end
    	t.angle_bar = t.angle_bar*math.pi/360 --halt angle
    
    	--colours
    	if t.bg_colour == nil 	then t.bg_colour = {0xffffff,0.5} end
    	if #t.bg_colour~=2 		then t.bg_colour = {0xffffff,0.5} end
    	if t.fg_colour == nil 	then t.fg_colour = {0xffffff,1} end
    	if #t.fg_colour~=2 		then t.fg_colour = {0xffffff,1} end
    	if t.alarm_colour == nil 	then t.alarm_colour = t.fg_colour end
    	if #t.alarm_colour~=2 		then t.alarm_colour = t.fg_colour end
    
    	if t.mid_colour ~= nil then
    		for i=1, #t.mid_colour do
    		    if #t.mid_colour[i]~=3 then
    		    	print ("error in mid_color table")
    		    	t.mid_colour[i]={1,0xFFFFFF,1}
    		    end
    		end
        end
    
    	if t.bg_led ~= nil and #t.bg_led~=2	then t.bg_led = t.bg_colour end
    	if t.fg_led ~= nil and #t.fg_led~=2	then t.fg_led = t.fg_colour end
    	if t.alarm_led~= nil and #t.alarm_led~=2 then t.alarm_led = t.fg_led end
    
    	if t.led_effect~=nil then
    		if t.bg_led == nil then t.bg_led = t.bg_colour end
    		if t.fg_led == nil 	then t.fg_led = t.fg_colour end
    		if t.alarm_led == nil  then t.alarm_led = t.fg_led end
    	end
    
    
    	if t.alarm==nil then t.alarm = t.max end --0.8*t.max end
    	if t.smooth == nil then t.smooth = false end
    
    	if t.skew_x == nil then
    		t.skew_x=0
    	else
    		t.skew_x = math.pi*t.skew_x/180
    	end
    	if t.skew_y == nil then
    		t.skew_y=0
    	else
    		t.skew_y = math.pi*t.skew_y/180
    	end
    
    	if t.reflection_alpha==nil then t.reflection_alpha=0 end
    	if t.reflection_length==nil then t.reflection_length=1 end
    	if t.reflection_scale==nil then t.reflection_scale=1 end
    
    	--end of default values
    
    
     	local function rgb_to_r_g_b(col_a)
    		return ((col_a[1] / 0x10000) % 0x100) / 255., ((col_a[1] / 0x100) % 0x100) / 255., (col_a[1] % 0x100) / 255., col_a[2]
    	end
    
    
    	--functions used to create patterns
    
    	local function create_smooth_linear_gradient(x0,y0,x1,y1)
    		local pat = cairo_pattern_create_linear (x0,y0,x1,y1)
    		cairo_pattern_add_color_stop_rgba (pat, 0, rgb_to_r_g_b(t.fg_colour))
    		cairo_pattern_add_color_stop_rgba (pat, 1, rgb_to_r_g_b(t.alarm_colour))
    		if t.mid_colour ~=nil then
    			for i=1, #t.mid_colour do
    				cairo_pattern_add_color_stop_rgba (pat, t.mid_colour[i][1], rgb_to_r_g_b({t.mid_colour[i][2],t.mid_colour[i][3]}))
    			end
    		end
    		return pat
    	end
    
    	local function create_smooth_radial_gradient(x0,y0,r0,x1,y1,r1)
    		local pat =  cairo_pattern_create_radial (x0,y0,r0,x1,y1,r1)
    		cairo_pattern_add_color_stop_rgba (pat, 0, rgb_to_r_g_b(t.fg_colour))
    		cairo_pattern_add_color_stop_rgba (pat, 1, rgb_to_r_g_b(t.alarm_colour))
    		if t.mid_colour ~=nil then
    			for i=1, #t.mid_colour do
    				cairo_pattern_add_color_stop_rgba (pat, t.mid_colour[i][1], rgb_to_r_g_b({t.mid_colour[i][2],t.mid_colour[i][3]}))
    			end
    		end
    		return pat
    	end
    
    	local function create_led_linear_gradient(x0,y0,x1,y1,col_alp,col_led)
    		local pat = cairo_pattern_create_linear (x0,y0,x1,y1) ---delta, 0,delta+ t.width,0)
    		cairo_pattern_add_color_stop_rgba (pat, 0.0, rgb_to_r_g_b(col_alp))
    		cairo_pattern_add_color_stop_rgba (pat, 0.5, rgb_to_r_g_b(col_led))
    		cairo_pattern_add_color_stop_rgba (pat, 1.0, rgb_to_r_g_b(col_alp))
    		return pat
    	end
    
    	local function create_led_radial_gradient(x0,y0,r0,x1,y1,r1,col_alp,col_led,mode)
    		local pat = cairo_pattern_create_radial (x0,y0,r0,x1,y1,r1)
    		if mode==3 then
    			cairo_pattern_add_color_stop_rgba (pat, 0, rgb_to_r_g_b(col_alp))
    			cairo_pattern_add_color_stop_rgba (pat, 0.5, rgb_to_r_g_b(col_led))
    			cairo_pattern_add_color_stop_rgba (pat, 1, rgb_to_r_g_b(col_alp))
    		else
    			cairo_pattern_add_color_stop_rgba (pat, 0, rgb_to_r_g_b(col_led))
    			cairo_pattern_add_color_stop_rgba (pat, 1, rgb_to_r_g_b(col_alp))
    		end
    		return pat
    	end
    
    
    
    
    
    
    	local function draw_single_bar()
    		--this fucntion is used for bars with a single block (blocks=1) but
    		--the drawing is cut in 3 blocks : value/alarm/background
    		--not zvzimzblr for circular bar
    		local function create_pattern(col_alp,col_led,bg)
    			local pat
    
    			if not t.smooth then
    				if t.led_effect=="e" then
    					pat = create_led_linear_gradient (-delta, 0,delta+ t.width,0,col_alp,col_led)
    				elseif t.led_effect=="a" then
    					pat = create_led_linear_gradient (t.width/2, 0,t.width/2,-t.height,col_alp,col_led)
    				elseif  t.led_effect=="r" then
    					pat = create_led_radial_gradient (t.width/2, -t.height/2, 0, t.width/2,-t.height/2,t.height/1.5,col_alp,col_led,2)
    				else
    					pat = cairo_pattern_create_rgba  (rgb_to_r_g_b(col_alp))
    				end
    			else
    				if bg then
    					pat = cairo_pattern_create_rgba  (rgb_to_r_g_b(t.bg_colour))
    				else
    					pat = create_smooth_linear_gradient(t.width/2, 0, t.width/2,-t.height)
    				end
    			end
    			return pat
    		end
    
    		local y1=-t.height*pct/100
    		local y2=nil
    		if pct>(100*t.alarm/t.max) then
    			y1 = -t.height*t.alarm/100
    			y2 = -t.height*pct/100
    			if t.smooth then y1=y2 end
    		end
    
    		if t.angle_bar==0 then
    
    			--block for fg value
    			pat = create_pattern(t.fg_colour,t.fg_led,false)
    			cairo_set_source(cr,pat)
    			cairo_rectangle(cr,0,0,t.width,y1)
    			cairo_fill(cr)
    
    			-- block for alarm value
    			if not t.smooth and y2 ~=nil then
    				pat = create_pattern(t.alarm_colour,t.alarm_led,false)
    				cairo_set_source(cr,pat)
    				cairo_rectangle(cr,0,y1,t.width,y2-y1)
    				cairo_fill(cr)
    				y3=y2
    			else
    				y2,y3=y1,y1
    			end
    			-- block for bg value
    			cairo_rectangle(cr,0,y2,t.width,-t.height-y3)
    			pat = create_pattern(t.bg_colour,t.bg_led,true)
    			cairo_set_source(cr,pat)
    			cairo_pattern_destroy(pat)
    			cairo_fill(cr)
    		end
    	end  --end single bar
    
    
    
    
    
    
    	local function draw_multi_bar()
    		--function used for bars with 2 or more blocks
    		for pt = 1,t.blocks do
    			--set block y
    			local y1 = -(pt-1)*(t.height+t.space)
    			local light_on=false
    
    			--set colors
    			local col_alp = t.bg_colour
    			local col_led = t.bg_led
    			if pct>=(100/t.blocks) or pct>0 then --ligth on or not the block
    				if pct>=(pcb*(pt-1))  then
    					light_on = true
    					col_alp = t.fg_colour
    					col_led = t.fg_led
    					if pct>=(100*t.alarm/t.max) and (pcb*pt)>(100*t.alarm/t.max) then
    						col_alp = t.alarm_colour
    						col_led = t.alarm_led
    					end
    				end
    			end
    
    			--set colors
    			--have to try to create gradients outside the loop ?
    			local pat
    
    			if not t.smooth then
    				if t.angle_bar==0 then
    					if t.led_effect=="e" then
    						pat = create_led_linear_gradient (-delta, 0,delta+ t.width,0,col_alp,col_led)
    					elseif t.led_effect=="a" then
    						pat = create_led_linear_gradient (t.width/2, -t.height/2+y1,t.width/2,0+t.height/2+y1,col_alp,col_led)
    					elseif  t.led_effect=="r" then
    						pat = create_led_radial_gradient (t.width/2, y1, 0, t.width/2,y1,t.width/1.5,col_alp,col_led,2)
    					else
    						pat = cairo_pattern_create_rgba  (rgb_to_r_g_b(col_alp))
    					end
    				else
    					 if t.led_effect=="a"  then
    						 pat = create_led_radial_gradient (0, 0, t.radius+(t.height+t.space)*(pt-1),
    														 0, 0, t.radius+(t.height+t.space)*(pt),
    											 col_alp,col_led,3)
    					else
    						pat = cairo_pattern_create_rgba  (rgb_to_r_g_b(col_alp))
    					end
    
    				end
    			else
    
    				if light_on then
    					if t.angle_bar==0 then
    						pat = create_smooth_linear_gradient(t.width/2, t.height/2, t.width/2,-(t.blocks-0.5)*(t.height+t.space))
    					else
    						pat = create_smooth_radial_gradient(0, 0, (t.height+t.space),  0,0,(t.blocks+1)*(t.height+t.space),2)
    					end
    				else
    					pat = cairo_pattern_create_rgba  (rgb_to_r_g_b(t.bg_colour))
    				end
    			end
    			cairo_set_source (cr, pat)
    			cairo_pattern_destroy(pat)
    
    			--draw a block
    			if t.angle_bar==0 then
    				cairo_move_to(cr,0,y1)
    				cairo_line_to(cr,t.width,y1)
    			else
    				cairo_arc( cr,0,0,
    					t.radius+(t.height+t.space)*(pt)-t.height/2,
    					 -t.angle_bar -math.pi/2 ,
    					 t.angle_bar -math.pi/2)
    			end
    			cairo_stroke(cr)
    		end
    	end
    
    
    
    
    	local function setup_bar_graph()
    		--function used to retrieve the value to display and to set the cairo structure
    		if t.blocks ~=1 then t.y=t.y-t.height/2 end
    
    		local value = 0
    		if t.name ~="" then
    			value = tonumber(conky_parse(string.format('${%s %s}', t.name, t.arg)))
    		else
    			value = tonumber(t.arg)
    		end
    
    		if value==nil then value =0 end
    
    		pct = 100*value/t.max
    		pcb = 100/t.blocks
    
    		cairo_set_line_width (cr, t.height)
    		cairo_set_line_cap  (cr, cap)
    		cairo_translate(cr,t.x,t.y)
    		cairo_rotate(cr,t.angle)
    
    		local matrix0 = cairo_matrix_t:create()
    		cairo_matrix_init (matrix0, 1,t.skew_y,t.skew_x,1,0,0)
    		cairo_transform(cr,matrix0)
    
    
    
    		--call the drawing function for blocks
    		if t.blocks==1 and t.angle_bar==0 then
    			draw_single_bar()
    			if t.reflection=="t" or t.reflection=="b" then cairo_translate(cr,0,-t.height) end
    		else
    			draw_multi_bar()
    		end
    
    		--dot for reminder
    		--[[
    		if t.blocks ~=1 then
    			cairo_set_source_rgba(cr,1,0,0,1)
    			cairo_arc(cr,0,t.height/2,3,0,2*math.pi)
    			cairo_fill(cr)
    		else
    			cairo_set_source_rgba(cr,1,0,0,1)
    			cairo_arc(cr,0,0,3,0,2*math.pi)
    			cairo_fill(cr)
    		end
    ]]
    		--call the drawing function for reflection and prepare the mask used
    		if t.reflection_alpha>0 and t.angle_bar==0 then
    			local pat2
    			local matrix1 = cairo_matrix_t:create()
    			if t.angle_bar==0 then
    				pts={-delta/2,(t.height+t.space)/2,t.width+delta,-(t.height+t.space)*(t.blocks)}
    				if t.reflection=="t" then
    					cairo_matrix_init (matrix1,1,0,0,-t.reflection_scale,0,-(t.height+t.space)*(t.blocks-0.5)*2*(t.reflection_scale+1)/2)
    					pat2 = cairo_pattern_create_linear (t.width/2,-(t.height+t.space)*(t.blocks),t.width/2,(t.height+t.space)/2)
    				elseif t.reflection=="r" then
    					cairo_matrix_init (matrix1,-t.reflection_scale,0,0,1,delta+2*t.width,0)
    					pat2 = cairo_pattern_create_linear (delta/2+t.width,0,-delta/2,0)
    				elseif t.reflection=="l" then
    					cairo_matrix_init (matrix1,-t.reflection_scale,0,0,1,-delta,0)
    					pat2 = cairo_pattern_create_linear (-delta/2,0,delta/2+t.width,-0)
    				else --bottom
    					cairo_matrix_init (matrix1,1,0,0,-1*t.reflection_scale,0,(t.height+t.space)*(t.reflection_scale+1)/2)
    					pat2 = cairo_pattern_create_linear (t.width/2,(t.height+t.space)/2,t.width/2,-(t.height+t.space)*(t.blocks))
    				end
    			end
    			cairo_transform(cr,matrix1)
    
    			if t.blocks==1 and t.angle_bar==0 then
    				draw_single_bar()
    				cairo_translate(cr,0,-t.height/2)
    			else
    				draw_multi_bar()
    			end
    
    
    			cairo_set_line_width(cr,0.01)
    			cairo_pattern_add_color_stop_rgba (pat2, 0,0,0,0,1-t.reflection_alpha)
    			cairo_pattern_add_color_stop_rgba (pat2, t.reflection_length,0,0,0,1)
    			if t.angle_bar==0 then
    				cairo_rectangle(cr,pts[1],pts[2],pts[3],pts[4])
    			end
    			cairo_clip_preserve(cr)
    			cairo_set_operator(cr,CAIRO_OPERATOR_CLEAR)
    			cairo_stroke(cr)
    			cairo_mask(cr,pat2)
    			cairo_pattern_destroy(pat2)
    			cairo_set_operator(cr,CAIRO_OPERATOR_OVER)
    
    		end --reflection
    
    
    	end --setup_bar_graph()
    
    
    	--start here !
    	setup_bar_graph()
    	cairo_restore(cr)
    end
    Last edited by Jedcurtis; July 1st, 2013 at 07:11 AM.
    | [I]Running 'VSIDO' | My blog |

  4. #22124
    Join Date
    Nov 2011
    Beans
    17

    Re: Post your .conkyrc files w/ screenshots

    @VinDSL
    In post #22110 your Conky is brilliant, Could I have a copy if it works on Ubuntu 12.10?

    My attempt;
    Code:
    # Conky, a system monitor, based on torsmo
    #
    # Any original torsmo code is licensed under the BSD license
    #
    # All code written since the fork of torsmo is licensed under the GPL
    #
    # Please see COPYING for details
    #
    # Copyright (c) 2004, Hannu Saransaari and Lauri Hakkarainen
    # Copyright (c) 2005-2010 Brenden Matthews, Philip Kovacs, et. al. (see AUTHORS)
    # All rights reserved.
    #
    # This program is free software: you can redistribute it and/or modify
    # it under the terms of the GNU General Public License as published by
    # the Free Software Foundation, either version 3 of the License, or
    # (at your option) any later version.
    #
    # This program is distributed in the hope that it will be useful,
    # but WITHOUT ANY WARRANTY; without even the implied warranty of
    # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    # GNU General Public License for more details.
    # You should have received a copy of the GNU General Public License
    # along with this program.  If not, see <http://www.gnu.org/licenses/>.
    #
    
    
    alignment top_right
    background no
    border_width 1
    cpu_avg_samples 2
    default_color yellow
    default_outline_color white
    default_shade_color white
    draw_borders no
    draw_graph_borders yes
    draw_outline no
    draw_shades no
    use_xft yes
    # xftfont DejaVu Sans Mono:size=12
    xftfont Ubuntu:size=12
    gap_x 10
    gap_y 40
    minimum_size 5 0
    net_avg_samples 2
    no_buffers yes
    out_to_console no
    out_to_stderr no
    extra_newline no
    own_window yes
    own_window_class Conky
    own_window_type desktop
    stippled_borders 0
    update_interval 1.0
    uppercase no
    use_spacer none
    show_graph_scale no
    show_graph_range no
    own_window_transparent yes
    
    
    TEXT
    $nodename - $sysname $kernel
    $hr
    ${time %a} ${color }${time %e %B %G}${alignr}${time %Z} ${color}${time %H:%M:%S}
    ${color green}SYSTEM$hr
    ${color green}RAM :$color $mem/$memmax - $memperc% 
    ${membar 6}
    ${color green}Swap :$color$swap/$swapmax - $swapperc% 
    ${swapbar 6}
    ${color yellow}CPU ${color green}Frequency GHz:$color $freq_g ${alignr} ${color green}Uptime:$color $uptime${color green}
    ${color}Core 1 :$color${alignr}${cpu cpu1}% ${color}${cpubar 6,320 cpu1}
    ${color}Core 2 :$color${alignr}${cpu cpu2}% ${color}${cpubar 6,320 cpu2}
    ${cpugraph 25,420,ffff00 ffff00}
    ${color green}GPU TEMP ${execi 60 nvidia-settings -t -q GPUCoreTemp} C
    ${color green}Processes:$color$processes${alignc}${color green}Running:$color$running_processes
    ${color green}Name ${alignr}             PID   CPU   MEM
    ${color red}${top name 1}${alignr}${color red}${top pid 1}${alignr}  ${top cpu 1}  ${top mem 1}
    ${color green}${top name 2}${alignr}${color yellow}${alignr}${top pid 2}  ${alignr}${top cpu 2}  ${alignr}${top mem 2}
    ${color green}${top name 3}${alignr}${color yellow}${alignr}${top pid 3}  ${alignr}${top cpu 3}  ${alignr}${top mem 3}
    ${color green}${top name 4}${alignr}${color yellow}${alignr}${top pid 4}  ${alignr}${top cpu 4}  ${alignr}${top mem 4}
    ${color green}${top name 5}${alignr}${color yellow}${alignr}${top pid 5}  ${alignr}${top cpu 5}  ${alignr}${top mem 5}
    ${color green}STORAGE$hr
    ${color green}root:${alignc}$color${fs_used /root}/${fs_size /root}
    ${fs_bar 6 /root}
    ${color green}Drive1:${alignc}$color${fs_used /media/Drive1}/${fs_size /media/Drive1}
    ${fs_bar 6 /media/Drive1}
    ${color green}Drive2:${alignc}$color${fs_used /media/Drive2}/${fs_size /media/Drive2}
    ${fs_bar 6 /media/Drive2}
    ${color green}Drive3:${alignc}$color${fs_used /media/Drive3}/${fs_size /media/Drive3}
    ${fs_bar 6 /media/Drive3}
    ${color green}NETWORKING$hr
    Up:$color ${upspeed eth0} ${color green}
    ${color red}${upspeedgraph eth0 25,420 ff0000 ff0000 180} 
    ${color green}Down:$color ${downspeed eth0}
    ${downspeedgraph eth0 25,420 00ff00 00ff00 25}
    $hr
    I'd like to add the weather to it too but don't know where to start and increase the size of the text for the time an date.
    Attached Images Attached Images
    Last edited by pooky2483; July 2nd, 2013 at 07:24 PM.

  5. #22125
    Join Date
    Nov 2011
    Beans
    17

    Re: Post your .conkyrc files w/ screenshots

    My city code is UKEN3694

  6. #22126
    Join Date
    Aug 2010
    Location
    Detachment 7
    Beans
    Hidden!

    Re: Post your .conkyrc files w/ screenshots

    Thanks Sector11, I finally found a wlourf script that was just a tad older that is doing what I want. I simply made multiple Conky's that are pulling their own lua script. (4 for the top!) Still not sure if I like the look yet, but hey, it was fun playing! Going to dress it up with some color probably, but I think I have the basics of it done. I like the looks of these bars better than what I was using and the script seems to run a little better. The bars were the ones displayed in the "Deadspace" Conky you found. It is another wlourf script of course! Thanks for the great find!!!

    | [I]Running 'VSIDO' | My blog |

  7. #22127
    Join Date
    Aug 2010
    Location
    Detachment 7
    Beans
    Hidden!

    Re: Post your .conkyrc files w/ screenshots

    And here it is semi-finished. Total of 8 Conky's running. The CPU is under duress due to manipulating my photo library in Shotwell. This also accounts for the high CPU temps! Thanks to Sector11, mrpeachy, wlourf and I know I'm missing someone! Sorry for that, it's late! Thanks to VastOne for the awesome gmusicbrowser work he does!

    It's a little cluttered right now, but it is displaying about all the info I'd ever need to keep track of. Conky can be really useful!!! The tint2 bar will be updated to remove the clock and replace it with a launcher bar when I get a little sleep.

    And here's the scrot;

    | [I]Running 'VSIDO' | My blog |

  8. #22128
    Join Date
    Nov 2008
    Beans
    1

    Re: Post your .conkyrc files w/ screenshots

    [IMG][/IMG]
    My conky weather from mrpeachy , most of my conky's from sector 11...

  9. #22129
    Join Date
    Mar 2007
    Beans
    27

    Re: Post your .conkyrc files w/ screenshots

    Jedcurtis@

    I like dark desktop wallpapers, and I like yours. Where did you get it?

  10. #22130
    Join Date
    Mar 2007
    Beans
    27

    Re: Post your .conkyrc files w/ screenshots

    Darn. Hit post button twice. Sorry.

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