How to remove bar border in Conky ?

[brianlopwe]

Hi,

How can I remove bar border in Conky ? So that this orange bar is not outlined by a black border anymore:



thank you

[again?]

Post your conky config....please.

[brianlopwe]

Post your conky config....please.

Code:

alignment top_right
background yes
border_width 14
border_inner_margin 0
border_outer_margin 0
cpu_avg_samples 0
default_color white
default_outline_color black
default_shade_color black
default_bar_size 0 7
double_buffer yes
draw_borders no
draw_graph_borders no
draw_outline no
draw_shades no
use_xft yes
xftfont terminus:size=9
gap_x 20
gap_y 19,5
minimum_size 200 100
maximum_width 226
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_transparent no
own_window_type override
own_window_colour 474747
stippled_borders 0
update_interval 0.2
uppercase no
use_none spacer
show_graph_scale no
show_graph_range no
top_cpu_separate false
top_name_width 12

${voffset -29}
${offset -16}${color #d56002}${fs_bar 2,999}${color}
${voffset -10}
${font Terminus:size=9}/RAM Usage: $memperc%  $mem/$memmax 
${color #000000}${hr 7}
${voffset -27}
${color #d56002}${membar}${color}${offset -226}${color #000000}${cpubar cpu5}${color}
${font Terminus:size=9}/Swap Usage: $swapperc%  $swap/$swapmax 
${color #000000}${hr 7}
${voffset -27}
${color #d56002}${swapbar}${color}${offset -226}${color #000000}${cpubar cpu5}${color}

[again?]

What you see is three conky objects on top of each other using $offset and $voffset

1. Horizontal line height 7px ....${color #000000}${hr 7}
2. membar .....${color #d56002}${membar}
3. cpubar.....${color #000000}${cpubar cpu5}

If you separate them out you will see the cpubar is drawing the black border....

Code:

TEXT
${color green}Horizontal line height 7px
${color #000000}${hr 7}

${color green}membar
${color #d56002}${membar}${color}

${color green}cpubar
${color #000000}${cpubar cpu}${color}

Attachment 283544


This config is using just $hr and $membar with a negative $voffset to overlay.

Code:

TEXT
${color green}Horizontal line & membar
${color #000000}${hr 7}
${voffset -28} 
${color #d56002}${membar}${color}

Attachment 283545


The colour of the bar graph border and the actual bar is the same and get's it's value from the config setting default_color
or by preceeding with a color then returning to the default text color in the config section below "TEXT"
eg ${color #d56002}${membar}${color}

[brianlopwe]

I did that because I needed to fill the bar with a black background.
In any case, I have expressed myself wrongly, what I should have ask is how do I get this bar:



do I need to start all over or can I get this result with what I've started ?

[again?]

Your pics aren't clear/large enough for me to see what you mean.
You can attach pics when you reply in advanced mode.

The border color and bar color are always the same unless you overlay another bar.
Then the entire border will be the color of the overlay as in your first pic.
Have you looked at lua to draw your graphs in conky?

[brianlopwe]

Here is the full picture:

20180718_154239.jpg

Just like mine except that the (orange) bar stay orange and is not outlined by the bar background.

No I did not look at lua.

[again?]

I use a lua script to draw bars for cpu and uploads/downloads.
I don't understand lua but it's easy to adapt someone else's script.
eg this script will draw bars for cpu and memperc.

you just add this above the "TEXT" section of a conky config.

Code:

lua_load ~/Desktop/bargraph_cpu_mem.lua
lua_draw_hook_post main_bars

Using your path to the lua file.

Then you start your conky and edit "x=35,y=9," line of bargraph_cpu_mem.lua in the relevant section to position the bar within your conky window.

Here's an example.
Save as luabars.conkyrc

Code:

####
## Use XFT? Required to Force UTF8 (see below).
#
use_xft yes
xftfont GE Inspira:bold:size=10
xftalpha 0.8
text_buffer_size 1024

####
## Force UTF8? Requires XFT (see above).
## Displays degree symbol, instead of °, etc.
#
override_utf8_locale yes

####
## Daemonize Conky, aka 'fork to background'.
#
background no

####
## Update interval in seconds.
#
update_interval 1.0

####
## This is the number of times Conky will update before quitting.
## Set to zero to run forever.
#
total_run_times 0

####
## Create own window instead of using desktop (required in nautilus)?
#
own_window yes
own_window_colour 2D2D2D  # 252525
own_window_title conky
own_window_type normal
own_window_transparent no
own_window_hints undecorated,sticky,skip_taskbar,skip_pager,below
default_color ACBACE
own_window_argb_visual yes
own_window_argb_value 195

####
## Use double buffering? Reduces flicker.
#
double_buffer yes

####
## Draw shades?
#
draw_shades no
default_shade_color 000000

####
## Draw outlines?
#
draw_outline no
#default_outline_color 000000

####
## Draw borders around text?
#
draw_borders no

####
## Draw borders around graphs?
#
draw_graph_borders no

####
## Print text to stdout?
## Print text in console?
#
out_to_ncurses no
out_to_console no

####
## Text alignment.
#
alignment tr

####
## Minimum size of text area.
#
minimum_size 660
maximum_width 300 

####
## Gap between text and screen borders.
#
gap_x 5
gap_y 2

####
## Shorten MiB/GiB to M/G in stats.
#
short_units yes

####
## Pad % symbol spacing after numbers.
#
pad_percents 0

####
## Pad spacing between text and borders.
#
border_inner_margin 0
border_outer_margin 0
border_width 2

####
## Limit the length of names in "Top Processes".
#
top_name_width 10

####
## Subtract file system -/+buffers/cache from used memory?
## Set to yes, to produce meaningful physical memory stats.
#
no_buffers yes

####
## Set to yes, if you want all text to be in UPPERCASE.
#
uppercase no

####
## Number of cpu samples to average.
## Set to 1 to disable averaging.
#
cpu_avg_samples 2

####
## Number of net samples to average.
## Set to 1 to disable averaging.
#
net_avg_samples 2

####
## Add spaces to keep things from moving around?
## Only affects certain objects.
#
use_spacer right

####
## My colors (suit yourself).
#
color0 White
color1 Ivory
color2 Ivory2
color3 Ivory3
color4 FF4040
color5 FBE6B7 #text colour
color6 Gray
color7 AntiqueWhite4
color8 F9A41E
#color9 red
color9 6A90EF #icon


lua_load ~/Desktop/bargraph_cpu_mem.lua 
lua_draw_hook_post main_bars



TEXT
CPU

MEM

Save as bargraph_cpu_mem.lua

Code:

--[[ BARGRAPH WIDGET
	v2.1 by wlourf (07 Jan. 2011)
	this widget draws a bargraph with different effects 
	http://u-scripts.blogspot.com/2010/07/bargraph-widget.html
	
To call the script in a conky, use, before TEXT
	lua_load /path/to/the/script/bargraph.lua
	lua_draw_hook_pre main_rings
and add one line (blank or not) after TEXT

	
Parameters are :
3 parameters are mandatory
name	- the name of the conky variable to display, for example for {$cpu cpu0}, just write name="cpu"
arg		- the argument of the above variable, for example for {$cpu cpu0}, just write arg="cpu0"
		  arg can be a numerical value if name=""
max		- the maximum value the above variable can reach, for example, for {$cpu cpu0}, just write max=100
	
Optional parameters:
x,y		- coordinates of the starting point of the bar, default = middle of the conky window
cap		- end of cap line, ossibles values are r,b,s (for round, butt, square), default="b"
		  http://www.cairographics.org/samples/set_line_cap/
angle	- angle of rotation of the bar in degress, default = 0 (i.e. a vertical bar)
		  set to 90 for an horizontal bar
skew_x	- skew bar around x axis, default = 0
skew_y	- skew bar around y axis, default = 0
blocks  - number of blocks to display for a bar (values >0) , default= 10
height	- height of a block, default=10 pixels
width	- width of a block, default=20 pixels
space	- space between 2 blocks, default=2 pixels
angle_bar	- this angle is used to draw a bar on a circular way (ok, this is no more a bar !) default=0
radius		- for cicular bars, internal radius, default=0
			  with radius, parameter width has no more effect.

Colours below are defined into braces {colour in hexadecimal, alpha}
fg_colour	- colour of a block ON, default= {0x00FF00,1}
bg_colour	- colour of a block OFF, default = {0x00FF00,0.5}
alarm		- threshold, values after this threshold will use alarm_colour colour , default=max
alarm_colour - colour of a block greater than alarm, default=fg_colour
smooth		- (true or false), create a gradient from fg_colour to bg_colour, default=false 
mid_colour	- colours to add to gradient, with this syntax {position into the gradient (0 to1), colour hexa, alpha}
			  for example, this table {{0.25,0xff0000,1},{0.5,0x00ff00,1},{0.75,0x0000ff,1}} will add
			  3 colurs to gradient created by fg_colour and alarm_colour, default=no mid_colour
led_effect	- add LED effects to each block, default=no led_effect
			  if smooth=true, led_effect is not used
			  possibles values : "r","a","e" for radial, parallelel, perdendicular to the bar (just try!)
			  led_effect has to be used with theses colours :
fg_led		- middle colour of a block ON, default = fg_colour
bg_led		- middle colour of a block OFF, default = bg_colour
alarm_led	- middle colour of a block > ALARM,  default = alarm_colour

reflection parameters, not avaimable for circular bars
reflection_alpha    - add a reflection effect (values from 0 to 1) default = 0 = no reflection
                      other values = starting opacity
reflection_scale    - scale of the reflection (default = 1 = height of text)
reflection_length   - length of reflection, define where the opacity will be set to zero
					  calues from 0 to 1, default =1
reflection			- position of reflection, relative to a vertical bar, default="b"
					  possibles values are : "b","t","l","r" for bottom, top, left, right
draw_me     - if set to false, text is not drawn (default = true or 1)
              it can be used with a conky string, if the string returns 1, the text is drawn :
              example : "${if_empty ${wireless_essid wlan0}}${else}1$endif",

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 Mar. 2010) added parameters radius & angle_bar to draw the bar in a circular way
v2.0 (12 Jul. 2010) rewrite script + add reflection effects and parameters are now set into tables
v2.1 (07 Jan. 2011) Add draw_me parameter and correct memory leaks, thanks to "Creamy Goodness"

--      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 version 3 (GPLv3)
--     
--      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, write to the Free Software
--      Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
--      MA 02110-1301, USA.		

]]

require 'cairo'

----------------START OF PARAMETERS ----------
function conky_main_bars()
	local bars_settings={
		{	--[ Graph for CPU1 ]--
			name="cpu",
			arg="cpu0",
			max=100,
			alarm=50,
			alarm_colour={0xFF0000,0.72},
			bg_colour={0xFFFFFF,0.25},
			fg_colour={0x00FF00,0.55},
			mid_colour={{0.45,0xFFFF00,0.70}},
			x=35,y=9,
			blocks=25,
			space=1,
			height=2,width=5,
			angle=90,
			smooth=true
			},
--		{	--[ Graph for CPU2 ]--
--			name="cpu",
--			arg="cpu2",
--			max=100,
--			alarm=50,
--			alarm_colour={0xFF0000,0.72},
--			bg_colour={0xFFFFFF,0.25},
--			fg_colour={0x00FF00,0.55},
--			mid_colour={{0.45,0xFFFF00,0.70}},
--			x=70,y=32,
--			blocks=25,
--			space=1,
--			height=2,width=5,
--			angle=90,
--			smooth=true
--			},
		{	--[ Graph for Memory ]--
			name="memperc",
			arg="",
			max=100,
			alarm=50,
			alarm_colour={0xFF0000,0.72},
			bg_colour={0xFFFFFF,0.25},
			fg_colour={0x00FF00,0.55},
			mid_colour={{0.45,0xFFFF00,0.70}},
			x=35,y=43,
			blocks=45,
			space=1,
			height=2,width=5,
			angle=90,
			smooth=true
			},
--[[		{	--[ Graph for Root ]--
                        name="fs_used_perc",
			arg="/",
			max=100,
			alarm=50,
			alarm_colour={0xFF0000,0.72},
			bg_colour={0xFFFFFF,0.25},
			fg_colour={0x00FF00,0.55},
			mid_colour={{0.45,0xFFFF00,0.70}},
			x=15,y=263,
			blocks=77,
			space=1,
			height=2,width=5,
			angle=90,
			smooth=true
			},	
		{	--[ Graph for Home ]--
			name="fs_used_perc",
			arg="/home",
			max=100,
			alarm=50,
			alarm_colour={0xFF0000,0.72},
			bg_colour={0xFFFFFF,0.25},
			fg_colour={0x00FF00,0.55},
			mid_colour={{0.45,0xFFFF00,0.70}},
			x=15,y=292,
			blocks=77,
			space=1,
			height=2,width=5,
			angle=90,
			smooth=true
			},	
	        {	--[ Graph for Swap ]--
                        name="swapperc",
			arg="",
			max=100,
			alarm=50,
			alarm_colour={0xFF0000,0.72},
			bg_colour={0xFFFFFF,0.25},
			fg_colour={0x00FF00,0.55},
			mid_colour={{0.45,0xFFFF00,0.70}},
			x=15,y=319,
			blocks=77,
			space=1,
			height=2,width=5,
			angle=90,
			smooth=true
			},  ]]	
--	        {	--[ Graph for Downspeed ]--
--                        name="downspeedf",
--			arg="eth0",
--			max=500,
--			alarm=400,
--			alarm_colour={0xFF0000,0.72},
--			bg_colour={0xFFFFFF,0.25},
--			fg_colour={0x00FF00,0.55},
--			mid_colour={{0.45,0xFFFF00,0.70}},
--			x=200,y=13,
--			blocks=77,
--			space=1,
--			height=2,width=5,
--			angle=90,
--			smooth=true
--			},
		 }		
	
-----------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)
	cr=nil

end



function draw_multi_bar_graph(t)
	cairo_save(cr)
	--check values
	if t.draw_me == true then t.draw_me = nil end
	if t.draw_me ~= nil and conky_parse(tostring(t.draw_me)) ~= "1" then return end	
	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
	local 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 = {0x00FF00,0.5} end
	if #t.bg_colour~=2 		then t.bg_colour = {0x00FF00,0.5} end
	if t.fg_colour == nil 	then t.fg_colour = {0x00FF00,1} end
	if #t.fg_colour~=2 		then t.fg_colour = {0x00FF00,1} 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,y3
		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
			local 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)
			cairo_pattern_destroy(pat)
		
			-- 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
				cairo_pattern_destroy(pat)
			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('${%s %s}', t.name, t.arg)))
			--$to_bytes doesn't work when value has a decimal point,
			--https://garage.maemo.org/plugins/ggit/browse.php/?p=monky;a=commitdiff;h=174c256c81a027a2ea406f5f37dc036fac0a524b;hp=d75e2db5ed3fc788fb8514121f67316ac3e5f29f
			--http://sourceforge.net/tracker/index.php?func=detail&aid=3000865&group_id=143975&atid=757310
			--conky bug?
			--value = (conky_parse(string.format('${%s %s}', t.name, t.arg)))
			--if string.match(value,"%w") then
			--	value = conky_parse(string.format('${to_bytes %s}',value))
			--end
		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()
		tolua.takeownership(matrix0)
		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()
			tolua.takeownership(matrix1)
			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
		pct,pcb=nil
	end --setup_bar_graph()
	
	--start here !
	setup_bar_graph()
	cairo_restore(cr)
end

If you place both files on your Desktop you can then run....

Code:

conky -c ~/Desktop/luabars.conkyrc

Should see ...
Attachment 283548

You can then edit and save bargraph_cpu_mem.lua while conky is running to see what changes do.
Has 7 sections to draw bars starting at line #89 in the "START OF PARAMETERS" section.
All are commented out except the cpu and mem sections.
lua uses "--" to comment a line, or you can enclose multiple lines between --[[ and ]]
The lua script shows both commenting methods.


eg I can achieve a memperc flat bar like below by changing these lines.
Attachment 283550

Code:

{	--[ Graph for Memory ]--
			name="memperc",
			arg="",
			max=100,
			alarm=85,
			alarm_colour={0xFF0000,0.72},
			bg_colour={0x000000,0.9},
			fg_colour={0xFFA400,0.85},
			mid_colour={{0.45,0xFFFF00,0.70}},
			x=35,y=43,
			blocks=45,
			space=0,
			height=2,width=5,
			angle=90,
			smooth=false,
			},

[brianlopwe]

thanks will try

[brianlopwe]

Good stuff, its done, ty.