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--[[

Infinity by Harshit

original by someone i can't remeber the name

This script draws the left rings of the screen that is with the clock

To call this script in Conky, use the following (assuming that you save this script to ~/scripts/rings.lua):

lua_load ~/scripts/haunted.lua

lua_draw_hook_pre ring_stats

Changelog:

+ v1.0 -- Original release (07/06/2012)

]]

settings_table = {

{

-- Edit this table to customise your rings.

-- You can create more rings simply by adding more elements to settings_table.

-- "name" is the type of stat to display; you can choose from 'cpu', 'memperc', 'fs_used_perc', 'battery_used_perc'.

name='time',

-- "arg" is the argument to the stat type, e.g. if in Conky you would write ${cpu cpu0}, 'cpu0' would be the argument. If you would not use an argument in the Conky variable, use ''.

arg='%I.%M',

-- "max" is the maximum value of the ring. If the Conky variable outputs a percentage, use 100.

max=12,

-- "bg_colour" is the colour of the base ring.

bg_colour=0xffffff,

-- "bg_alpha" is the alpha value of the base ring.

bg_alpha=0.1,

-- "fg_colour" is the colour of the indicator part of the ring.

fg_colour=0xffffff,

-- "fg_alpha" is the alpha value of the indicator part of the ring.

fg_alpha=0.2,

-- "x" and "y" are the x and y coordinates of the centre of the ring, relative to the top left corner of the Conky window.

x=165, y=170,

-- "radius" is the radius of the ring.

radius=50,

-- "thickness" is the thickness of the ring, centred around the radius.

thickness=5,

-- "start_angle" is the starting angle of the ring, in degrees, clockwise from top. Value can be either positive or negative.

start_angle=0,

-- "end_angle" is the ending angle of the ring, in degrees, clockwise from top. Value can be either positive or negative, but must be larger (e.g. more clockwise) than start_angle.

end_angle=360

},

{

name='time',

arg='%M.%S',

max=60,

bg_colour=0xffffff,

bg_alpha=0.1,

fg_colour=0x4a89a7,

fg_alpha=0.4,

x=165, y=170,

radius=56,

thickness=5,

start_angle=0,

end_angle=360

},

{

name='time',

arg='%S',

max=60,

bg_colour=0xffffff,

bg_alpha=0.1,

fg_colour=0xe83737,

fg_alpha=0.6,

x=165, y=170,

radius=62,

thickness=5,

start_angle=0,

end_angle=360

},

{

name='cpu',

arg='cpu1',

max=100,

bg_colour=0xffffff,

bg_alpha=0,

fg_colour=0xffffff,

fg_alpha=0.1,

x=165, y=170,

radius=70,

thickness=5,

start_angle=60,

end_angle=120

},

{

name='cpu',

arg='cpu2',

max=100,

bg_colour=0xffffff,

bg_alpha=0,

fg_colour=0xebff46,

fg_alpha=0.1,

x=165, y=170,

radius=76,

thickness=5,

start_angle=60,

end_angle=120

},

{

name='cpu',

arg='cpu0',

max=100,

bg_colour=0xffffff,

bg_alpha=0.1,

fg_colour=0x46a646,

fg_alpha=0.4,

x=165, y=170,

radius=84.5,

thickness=8,

start_angle=60,

end_angle=120

},

{

name='battery_percent',

arg='BAT1',

max=100,

bg_colour=0xffffff,

bg_alpha=0.1,

fg_colour=0xebff46,

fg_alpha=0.6,

x=165, y=170,

radius=72,

thickness=11,

start_angle=122,

end_angle=210

},

{

name='memperc',

arg='',

max=100,

bg_colour=0xffffff,

bg_alpha=0.1,

fg_colour=0x46a646,

fg_alpha=0.8,

x=165, y=170,

radius=83.5,

thickness=8,

start_angle=122,

end_angle=210

},

{

name='time',

arg='%d',

max=31,

bg_colour=0xffffff,

bg_alpha=0.1,

fg_colour=0xebff46,

fg_alpha=0.8,

x=165, y=170,

radius=70,

thickness=5,

start_angle=212,

end_angle=360

},

{

name='time',

arg='%m',

max=12,

bg_colour=0xffffff,

bg_alpha=0.1,

fg_colour=0xf4732d,

fg_alpha=0.8,

x=165, y=170,

radius=76,

thickness=5,

start_angle=212,

end_angle=360

},

{

name='memperc',

arg='%m',

max=100,

bg_colour=0xb7b7b7,

bg_alpha=0.5,

fg_colour=0x2c2c2c,

fg_alpha=1.0,

x=165, y=170,

radius=120,

thickness=17,

start_angle=-90,

end_angle=30

},

{

name='',

arg='',

max=100,

bg_colour=0xb7b7b7,

bg_alpha=0.2,

fg_colour=0x2c2c2c,

fg_alpha=1.0,

x=165, y=170,

radius=116,

thickness=17,

start_angle=82,

end_angle=180

},

{

name='fs_used_perc',

arg='/home',

max=100,

bg_colour=0xffffff,

bg_alpha=0.5,

fg_colour=0xffffff,

fg_alpha=0.6,

x=165, y=170,

radius=95,

thickness=5,

start_angle=0,

end_angle=90

},

}

clock_r=125

clock_x=165

clock_y=170

clock_colour=0xffffff

clock_alpha=0.5

show_seconds=true

require 'cairo'

function rgb_to_r_g_b(colour,alpha)

return ((colour / 0x10000) % 0x100) / 255., ((colour / 0x100) % 0x100) / 255., (colour % 0x100) / 255., alpha

end

function draw_ring(cr,t,pt)

local w,h=conky_window.width,conky_window.height

local xc,yc,ring_r,ring_w,sa,ea=pt['x'],pt['y'],pt['radius'],pt['thickness'],pt['start_angle'],pt['end_angle']

local bgc, bga, fgc, fga=pt['bg_colour'], pt['bg_alpha'], pt['fg_colour'], pt['fg_alpha']

local angle_0=sa*(2*math.pi/360)-math.pi/2

local angle_f=ea*(2*math.pi/360)-math.pi/2

local t_arc=t*(angle_f-angle_0)

cairo_arc(cr,xc,yc,ring_r,angle_0,angle_f)

cairo_set_source_rgba(cr,rgb_to_r_g_b(bgc,bga))

cairo_set_line_width(cr,ring_w)

cairo_stroke(cr)

cairo_arc(cr,xc,yc,ring_r,angle_0,angle_0+t_arc)

cairo_set_source_rgba(cr,rgb_to_r_g_b(fgc,fga))

cairo_stroke(cr)

end

function draw_clock_hands(cr,xc,yc)

local secs,mins,hours,secs_arc,mins_arc,hours_arc

local xh,yh,xm,ym,xs,ys

secs=os.date("%S")

mins=os.date("%M")

hours=os.date("%I")

secs_arc=(2*math.pi/60)*secs

mins_arc=(2*math.pi/60)*mins+secs_arc/60

hours_arc=(2*math.pi/12)*hours+mins_arc/12

xh=xc+0.7*clock_r*math.sin(hours_arc)

yh=yc-0.7*clock_r*math.cos(hours_arc)

cairo_move_to(cr,xc,yc)

cairo_line_to(cr,xh,yh)

cairo_set_line_cap(cr,CAIRO_LINE_CAP_ROUND)

cairo_set_line_width(cr,5)

cairo_set_source_rgba(cr,rgb_to_r_g_b(clock_colour,clock_alpha))

cairo_stroke(cr)

xm=xc+clock_r*math.sin(mins_arc)

ym=yc-clock_r*math.cos(mins_arc)

cairo_move_to(cr,xc,yc)

cairo_line_to(cr,xm,ym)

cairo_set_line_width(cr,3)

cairo_stroke(cr)

if show_seconds then

xs=xc+clock_r*math.sin(secs_arc)

ys=yc-clock_r*math.cos(secs_arc)

cairo_move_to(cr,xc,yc)

cairo_line_to(cr,xs,ys)

cairo_set_line_width(cr,1)

cairo_stroke(cr)

end

end

function conky_clock_rings()

local function setup_rings(cr,pt)

local str=''

local value=0

str=string.format('${%s %s}',pt['name'],pt['arg'])

str=conky_parse(str)

value=tonumber(str)

if value == nil then value = 0 end

pct=value/pt['max']

draw_ring(cr,pct,pt)

end

if conky_window==nil then return end

local cs=cairo_xlib_surface_create(conky_window.display,conky_window.drawable,conky_window.visual, conky_window.width,conky_window.height)

local cr=cairo_create(cs)

local updates=conky_parse('${updates}')

update_num=tonumber(updates)

if update_num>5 then

for i in pairs(settings_table) do

setup_rings(cr,settings_table[i])

end

end

draw_clock_hands(cr,clock_x,clock_y)

end

--[[ RING WIDGET ]]

--[[ Options (name, arg, max, bg_colour, bg_alpha, xc, yc, radius, thickness, start_angle, end_angle):

"name" is the type of stat to display; you can choose from 'cpu', 'memperc', 'fs_used_perc', 'battery_used_perc'.

"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 ring. If the Conky variable outputs a percentage, use 100.

"bg_colour" is the colour of the base ring.

"bg_alpha" is the alpha value of the base ring.

"fg_colour" is the colour of the indicator part of the ring.

"fg_alpha" is the alpha value of the indicator part of the ring.

"x" and "y" are the x and y coordinates of the centre of the ring, relative to the top left corner of the Conky window.

"radius" is the radius of the ring.

"thickness" is the thickness of the ring, centred around the radius.

"start_angle" is the starting angle of the ring, in degrees, clockwise from top. Value can be either positive or negative.

"end_angle" is the ending angle of the ring, in degrees, clockwise from top. Value can be either positive or negative, but must be larger (e.g. more clockwise) than start_angle. ]]

function ring(cr, name, arg, max, bgc, bga, fgc, fga, xc, yc, r, t, sa, ea)

local function rgb_to_r_g_b(colour,alpha)

return ((colour / 0x10000) % 0x100) / 255., ((colour / 0x100) % 0x100) / 255., (colour % 0x100) / 255., alpha

end

local function draw_ring(pct)

local angle_0=sa*(2*math.pi/360)-math.pi/2

local angle_f=ea*(2*math.pi/360)-math.pi/2

local pct_arc=pct*(angle_f-angle_0)

-- Draw background ring

cairo_arc(cr,xc,yc,r,angle_0,angle_f)

cairo_set_source_rgba(cr,rgb_to_r_g_b(bgc,bga))

cairo_set_line_width(cr,t)

cairo_stroke(cr)

-- Draw indicator ring

cairo_arc(cr,xc,yc,r,angle_0,angle_0+pct_arc)

cairo_set_source_rgba(cr,rgb_to_r_g_b(fgc,fga))

cairo_stroke(cr)

end

local function setup_ring()

local str = ''

local value = 0

str = string.format('${%s %s}', name, arg)

str = conky_parse(str)

value = tonumber(str)

if value == nil then value = 0 end

pct = value/max

draw_ring(pct)

end

local updates=conky_parse('${updates}')

update_num=tonumber(updates)

if update_num>5 then setup_ring() end

end

--[[ END RING WIDGET ]]