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Thread: Post your .conkyrc files w/ screenshots

  1. #22761
    Join Date
    May 2014
    Beans
    1

    Cool Indicator CPU/RAM 100% WORKS



    This is my first Post and I am not sure who will get to view this awesome but simple Conky config.
    Taking some code already created for "Gotham", I created a New config that sits on the top dock
    bar showing important info for my system. I was trying to search for a way to get it to sit ontop
    of all the windows or currently open applications. Then while looking in the window hints I noticed
    the one called "below" and change it to "above" and after a bit a tweaking in the Conky Manager.
    I had one of those HOLY $#!t... A simple but effective read out of core info that I want to quickly glance and will always
    be viewable.

    The code is rather simple and short and simple.
    If you dont have Conky Manager, you can install it via the terminal with set commands.

    Simply HIGHLIGHT the below text and drag/drop into the terminal. Confirm with you password and sit back and wait.
    Code:
    sudo apt-add-repository -y ppa:teejee2008/ppa && sudo apt-get update && sudo apt-get install conky-manager
    Once install completes, Navigate to your Home/conky-manager/themes in folder view.
    Copy the "Gotham" theme and rename it to "Gotham Cpu-Ram".
    Open the folder and delete the fonts folder , info.txt , and preview.png if you want.
    Next open config folder and then rename "Gotham" to "Gotham Cpu-Ram" and open it in "gedit".

    Now comes the important part
    Look for this command line -
    Code:
    own_window_hints undecorated,below,sticky,skip_taskbar,skip_pager
    Change "below" to "above"
    Now scroll down and find this command line -

    Code:
    minimum_size 0 0
    TEXT
    Highlight EVERYTHING below that and replace it with this config...

    Code:
    ${font Ubuntu:pixelsize=12}${color FFA300}CPU${offset 9}$color${font Ubuntu:pixelsize=12}${cpu cpu0}% - ${hwmon temp 1}/${color FF0000}70$color°C ${font Ubuntu:pixelsize=12}${color FFA300} CPU-FAN${offset 9}$color${font Ubuntu:pixelsize=12}${hwmon fan 1}rpm${offset 10}${font Ubuntu:pixelsize=12}${color FFA300}RAM${offset 9}$color${font Ubuntu:pixelsize=12}$memperc% - $mem/$memmax
    Now if you want to Customize what is listed as name just change the "CPU" at
    Code:
    {color FFA300}CPU${offset 9}
    to whatever you want the name to be

    Lastly make sure that is shows in the correct spot.
    find command line -
    Code:
    gap_x
    gap_y
    and make sure it reads

    Code:
    gap_x 900
    gap_y 4
    This will set the conky config line near the top right of the bar.

    Hope you found this helpful.

  2. #22762
    Join Date
    Mar 2014
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    Re: Post your .conkyrc files w/ screenshots

    @ chris216.
    Hi, nice work.
    I use similar but with a couple of different settings than you.
    The own_window_type normal doesn't let me place the window on the unity panel.
    I use these settings instead....
    Code:
    alignment top_left
    own_window yes
    own_window_type panel
    own_window_transparent yes
    own_window_hints undecorated,above,sticky,skip_taskbar,skip_pager
    own_window_colour 000000
    own_window_argb_visual yes
    own_window_argb_value 0
    minimum_size 420 22
    maximum_width 420
    gap_x 900
    gap_y 1
    I also use ${goto xx} below "TEXT" to fix the position of each variable output so they don't move about as the number of characters drawn changes.
    xx=your horizontal pixel position in your conky.
    eg I would use something like this...
    Code:
    ${voffset 3}${font Ubuntu:pixelsize=12}${color FFA300}CPU${offset 9}$color${font Ubuntu:pixelsize=12}${cpu cpu0}% -${goto 70}${hwmon temp 1}/${color FF0000}70$color°C ${font Ubuntu:pixelsize=12}${color FFA300} ${goto 130}CPU-FAN${offset 9}$color${font Ubuntu:pixelsize=12}
    Attached Images Attached Images
    Last edited by grumblebum2; May 1st, 2014 at 07:37 AM.

  3. #22763
    Join Date
    May 2014
    Beans
    1

    Re: Post your .conkyrc files w/ screenshots

    in the congif file that is set to "dock". I had tryed override but that just made it not show seems like normal and dock were the only two that would allow it to show.

    I dont know much about encoding conky let alone anything linux wise but it has been a learning experience thus far. just went through my 3rd reinstall on a newly built AMD64 system.

    Here is the full Code for reference.
    Code:
    use_xft yes
    xftfont 123:size=8
    xftalpha 0.1
    update_interval 1
    total_run_times 0
    
    own_window yes
    own_window_type dock
    own_window_transparent yes
    own_window_hints undecorated,above,sticky,skip_taskbar,skip_pager
    own_window_colour 2E3436
    own_window_argb_visual yes
    own_window_argb_value 0
    
    double_buffer yes
    #minimum_size 250 5
    #maximum_width 500
    draw_shades no
    draw_outline no
    draw_borders no
    draw_graph_borders no
    default_color white
    default_shade_color red
    default_outline_color green
    alignment top_left
    gap_x 900
    gap_y 4
    no_buffers yes
    uppercase no
    cpu_avg_samples 2
    net_avg_samples 1
    override_utf8_locale yes
    use_spacer yes
    
    
    minimum_size 0 0
    TEXT
    ${font Ubuntu:pixelsize=12}${color FFA300}AMD-FX${offset 9}$color${font Ubuntu:pixelsize=12}${cpu cpu0}% - ${hwmon temp 1}/${color FF0000}70$color°C ${font Ubuntu:pixelsize=12}${color FFA300} FX-FAN${offset 9}$color${font Ubuntu:pixelsize=12}${hwmon fan 1}rpm${offset 10}${font Ubuntu:pixelsize=12}${color FFA300}RAM${offset 9}$color${font Ubuntu:pixelsize=12}$memperc% - $mem/$memmax
    Last edited by chris216; May 1st, 2014 at 03:54 PM. Reason: Text fix..

  4. #22764
    Join Date
    Mar 2014
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    Hidden!

    Re: Post your .conkyrc files w/ screenshots

    Quote Originally Posted by chris216 View Post
    in the congif file that is set to "dock". I had tryed override but that just made it not show seems like normal and dock were the only two that would allow it to show.

    I dont know much about encoding conky let alone anything linux wise but it has been a learning experience thus far. just went through my 3rd reinstall on a newly built AMD64 system.
    A lot of us developed a better understanding of linux through learning conky.
    ...and in the beginning did numerous reinstall as it's often the easiest way to fix when you have limited experience.

    I took your config and added a lua script to draw CPU activity.
    Makes it easier to check at a glance if the cpu is being hogged.
    Also added net activity.
    It's configured to use the wired eth0 interface.
    Use the network panel icon > information to get your interface. May be wlan0 if wireless.
    Change the two instances of eth0 in the config for your interface. (and they're zeros not capital O's)

    Create a folder in your home directory called conky.
    Open gedit and copy and paste the following config into it and save
    as indicators.conkyrc in the conky folder.
    Code:
    use_xft yes
    xftfont 123:size=8
    xftalpha 0.1
    update_interval 1
    total_run_times 0
    
    own_window yes
    own_window_type dock
    own_window_transparent yes
    own_window_hints undecorated,above,sticky,skip_taskbar,skip_pager
    own_window_colour 2E3436
    own_window_argb_visual yes
    own_window_argb_value 0
    
    double_buffer yes
    #minimum_size 250 5
    #maximum_width 500
    draw_shades no
    draw_outline no
    draw_borders no
    draw_graph_borders no
    default_color white
    default_shade_color red
    default_outline_color green
    alignment top_left
    gap_x 900
    gap_y 4
    no_buffers yes
    uppercase no
    cpu_avg_samples 2
    net_avg_samples 1
    override_utf8_locale yes
    use_spacer right
    short_units yes
    
    ####
    ## 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
    
    minimum_size 465 0
    maximum_width 465
    
    lua_load ~/conky/bargraph_smallcpu.lua
    lua_draw_hook_post main_bars
    
    TEXT
    ${font Ubuntu:pixelsize=12}${color FFA300}AMD-FX${goto 115}${color}${hwmon temp 1}°C${font Ubuntu:pixelsize=12}${color FFA300}${goto 160}FX-FAN ${color}${font Ubuntu:pixelsize=12}${hwmon fan 1}rpm${goto 270}${font Ubuntu:pixelsize=12}${color FFA300}RAM ${color}${font Ubuntu:pixelsize=12}${mem}${color FFA300}${goto 350}D/L ${color green}${downspeedf eth0}${goto 415}${color FFA300}U/L ${color yellow}${upspeedf eth0}

    Save this as bargraph_smallcpu.lua to the conky folder
    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=55,y=11,
    			blocks=20,
    			space=1,
    			height=2,width=5,
    			angle=90,
    			smooth=true
    			},
    --[[		{	--[ Graph for GPU Temp ]--
    			name="nvidia",
    			arg="temp",
    			max=100,
    			alarm=50,
    			alarm_colour={0xFF0000,0.60},
    			bg_colour={0xFFFFFF,0.20},
    			fg_colour={0x00FF00,0.55},
    			mid_colour={{0.45,0xFFFF00,0.70}},
    			x=300,y=15,
    			blocks=18,
                            space=2,
    			height=10,width=4,
    			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=319,y=13,
    			blocks=20,
    			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 Upspeed ]--
                            name="upspeedf",
    			arg="eth0",
    			max=70,
    			alarm=70,
    			alarm_colour={0xFF0000,0.72},
    			bg_colour={0xFFFFFF,0.25},
    			fg_colour={0x00FF00,0.55},
    			mid_colour={{0.45,0xFFFF00,0.70}},
    			x=450,y=23,
    			blocks=10,
    			space=1,
    			height=1,width=15,
    			angle=0,
    			smooth=true
    			},           
    {	--[ Graph for Downspeed ]--
                            name="downspeedf",
    			arg="eth0",
    			max=500,
    			alarm=500,
    			alarm_colour={0xFF0000,0.72},
    			bg_colour={0xFFFFFF,0.25},
    			fg_colour={0x00FF00,0.55},
    			mid_colour={{0.45,0xFFFF00,0.70}},
    			x=405,y=5,
    			blocks=10,
    			space=1,
    			height=1,width=15,
    			angle=180,
    			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
    To run conky using the indicators.conkyrc config, in the terminal run
    Code:
    conky -c ~/conky/indicators.conkyrc
    Attached Images Attached Images
    Last edited by grumblebum2; May 2nd, 2014 at 09:39 AM.

  5. #22765
    Join Date
    May 2014
    Beans
    1

    Thumbs up Re: Post your .conkyrc files w/ screenshots

    Wow Kudos on adding a bar graph! I myself would rather see that along with a Cpu% and Ram%. but thats just me i am partial to ez view that the bar is a nice added touch. I dont know much about lua but maybe in time i will be able to learn the code

  6. #22766
    Join Date
    May 2014
    Beans
    1

    Re: Post your .conkyrc files w/ screenshots

    Question. Could you modify the code to add a bar for the ram and then also include the % for cpu/ram i think then this conky config would be complete. or at least include the option to turn on the items.

  7. #22767
    Join Date
    Mar 2014
    Beans
    Hidden!

    Re: Post your .conkyrc files w/ screenshots

    Quote Originally Posted by chris216 View Post
    Question. Could you modify the code to add a bar for the ram and then also include the % for cpu/ram i think then this conky config would be complete. or at least include the option to turn on the items.
    Don't get me wrong, I probably know as much about lua as you.
    I've just learnt how to use other peoples scripts.

    This conkyconfig and lua will display as in pic.
    Just replace your previous conkyrc and lua.

    conky...
    Code:
    use_xft yes
    xftfont 123:size=8
    xftalpha 0.1
    update_interval 1
    total_run_times 0
    
    own_window yes
    own_window_type dock
    own_window_transparent yes
    own_window_hints undecorated,above,sticky,skip_taskbar,skip_pager
    own_window_colour 2E3436
    own_window_argb_visual yes
    own_window_argb_value 0
    
    double_buffer yes
    #minimum_size 250 5
    #maximum_width 500
    draw_shades no
    draw_outline no
    draw_borders no
    draw_graph_borders no
    default_color white
    default_shade_color red
    default_outline_color green
    alignment top_left
    gap_x 900
    gap_y 4
    no_buffers yes
    uppercase no
    cpu_avg_samples 2
    net_avg_samples 1
    override_utf8_locale yes
    use_spacer right
    short_units yes
    
    ####
    ## 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
    
    minimum_size 465 0
    maximum_width 465
    
    lua_load ~/conky/bargraph_smallcpu.lua
    lua_draw_hook_post main_bars
    
    TEXT
    ${font Ubuntu:pixelsize=12}${color FFA300}AMD-FX ${color}${cpu cpu0}%${goto 85}${hwmon temp 1}°C${font Ubuntu:pixelsize=12}${color FFA300}${goto 130}FX-FAN ${color}${font Ubuntu:pixelsize=12}${hwmon fan 1}rpm${goto 240}${font Ubuntu:pixelsize=12}${color FFA300}RAM ${color}${font Ubuntu:pixelsize=12}${memperc}% -${mem}${color FFA300}${goto 350}D/L ${color green}${downspeedf eth0}${goto 415}${color FFA300}U/L ${color yellow}${upspeedf eth0}
    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=5,y=19,
    			blocks=37,
    			space=1,
    			height=2,width=5,
    			angle=90,
    			smooth=true
    			},
    --[[		{	--[ Graph for GPU Temp ]--
    			name="nvidia",
    			arg="temp",
    			max=100,
    			alarm=50,
    			alarm_colour={0xFF0000,0.60},
    			bg_colour={0xFFFFFF,0.20},
    			fg_colour={0x00FF00,0.55},
    			mid_colour={{0.45,0xFFFF00,0.70}},
    			x=300,y=15,
    			blocks=18,
                            space=2,
    			height=10,width=4,
    			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=241,y=19,
    			blocks=32,
    			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 Upspeed ]--
                            name="upspeedf",
    			arg="eth0",
    			max=70,
    			alarm=70,
    			alarm_colour={0xFF0000,0.72},
    			bg_colour={0xFFFFFF,0.25},
    			fg_colour={0x00FF00,0.55},
    			mid_colour={{0.45,0xFFFF00,0.70}},
    			x=450,y=23,
    			blocks=10,
    			space=1,
    			height=1,width=15,
    			angle=0,
    			smooth=true
    			},           
    {	--[ Graph for Downspeed ]--
                            name="downspeedf",
    			arg="eth0",
    			max=500,
    			alarm=500,
    			alarm_colour={0xFF0000,0.72},
    			bg_colour={0xFFFFFF,0.25},
    			fg_colour={0x00FF00,0.55},
    			mid_colour={{0.45,0xFFFF00,0.70}},
    			x=405,y=5,
    			blocks=10,
    			space=1,
    			height=1,width=15,
    			angle=180,
    			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
    Attached Images Attached Images

  8. #22768
    Join Date
    Feb 2010
    Beans
    Hidden!

    Re: Post your .conkyrc files w/ screenshots

    @ chris216 & grumblebum

    Since there is only one font type|size used after TEXT they can all be eliminated by changing above TEXT:

    Code:
    use_xft yes
    xftfont 123:size=8
    xftalpha 0.1
    to
    Code:
    use_xft yes
    xftfont Ubuntu:pixelsize=12
    xftalpha 0.1
    Which mean the code after TEXT would look like this:
    Code:
    TEXT
    ${color FFA300}AMD-FX ${color}${cpu cpu0}%${goto 85}${hwmon temp 1}°C${color FFA300}${goto 130}FX-FAN ${color}${hwmon fan 1}rpm${goto 240}${color FFA300}RAM ${color}${memperc}% -${mem}${color FFA300}${goto 350}D/L ${color green}${downspeedf eth0}${goto 415}${color FFA300}U/L ${color yellow}${upspeedf eth0}
    I don't have a dock so I had to create one for this example Nice little conky.

    When making I had to 'pad' values to get proper spacing:


    @ grumblebum - that wallpaper you show --- it's not 1920x1080 by any chance is it? It looks interesting.

  9. #22769
    Join Date
    Mar 2014
    Beans
    Hidden!

    Re: Post your .conkyrc files w/ screenshots

    @ Sector11
    It's from vladstudio.
    http://www.vladstudio.com/wallpapers/?skip=48

  10. #22770
    Join Date
    Feb 2010
    Beans
    Hidden!

    Re: Post your .conkyrc files w/ screenshots

    Quote Originally Posted by grumblebum2 View Post
    @ Sector11
    It's from vladstudio.
    http://www.vladstudio.com/wallpapers/?skip=48
    Thank you ...

    However ... they want $14.99 for my resolution. I'll pass.

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