local setmetatable = setmetatable local ipairs,pairs = ipairs,pairs local table,print = table,print local math,string = math,string local unpack,type = unpack,type local base = require( "radical.base" ) local awful = require( "awful" ) local util = require( "awful.util" ) local button = require( "awful.button" ) local checkbox = require( "radical.widgets.checkbox" ) local beautiful = require( "beautiful" ) local naughty = require( "naughty" ) local wibox = require( "wibox" ) local tag = require( "awful.tag" ) local color = require( "gears.color" ) local cairo = require( "lgi" ).cairo local shape = require( "gears.shape" ) local default = {width=90,height=30,radius=40,base_radius=60} local capi = { mouse = mouse, mousegrabber = mousegrabber } local module={} -- Generate a cached pixmap starting at pi/2-(2*pi / seg_count) -- This mask is then rotated in place where desired -- the reason for this is to keep the code simple and allow -- a menu rotate "animation" with the scroll wheel local function gen_text_mask(data, layer, segs, text) -- Step 1: compute the minimal size --TODO limit to the radius local h = (default.base_radius + layer*default.radius) * (segs < 2 and 2 or 1) -- I let the reader make the proof of this: good luck with that local dr = (math.pi*2)/segs local w = segs <= 2 and data.width or 2*math.abs(math.sin((dr)/3)*(data.width/2)) + 3 -- Step 2: Create the surface local img = cairo.ImageSurface(cairo.Format.ARGB32, w, h) local cr = cairo.Context(img) -- cr:set_source_rgba(1,0,0,1) -- cr:paint() -- cr:set_source_rgba(1,1,1,1) local border_width= 4 local start_angle = -(math.pi/2) - dr/2 local end_angle = -(math.pi/2) + dr/2 local cur_angle = start_angle local cur_rad = h-border_width cr:set_source_rgba(1,1,1,1) cr:select_font_face("monospace") local matrix = cairo.Matrix() cairo.Matrix.init_translate(matrix,w/2,h) for i=1,text:len() do local c = text:sub(i,i) -- Step 4: Create the transformation matrix -- TODO use composite local matrix12 = cairo.Matrix() local ex = cr:text_extents(c) cairo.Matrix.init_rotate(matrix12, cur_angle+math.pi/2) matrix12:translate(-ex.width/2,ex.height/2) local trext = cairo.Matrix() cairo.Matrix.init_translate(trext, cur_rad*math.cos(cur_angle), cur_rad*math.sin(cur_angle) ) local res = cairo.Matrix() res:multiply(trext,matrix) local res2 = cairo.Matrix() res2:multiply(matrix12,res) cr:set_matrix(res2) -- Step 4: Paint cr:text_path(c) cr:fill() -- Step 5: update the angle cur_angle = cur_angle + 0.05 --TODO use trigonometry to copute this if cur_angle > end_angle then cur_angle = start_angle cur_rad = cur_rad - border_width - ex.height end end return img end function module.radial_client_select(args) --Settings local args = args or {} local data = {width=400,height=400,layers={},compose={}} local screen = args.screen or mouse.screen local height = args.height or default.height local width = args.widget or default.width local function position_indicator_layer() if not data.indicator or data.angle_cache ~= data.angle then local angle,tan = data.angle or 0,data.tan or 0 if not data.indicator then data.indicator = {} data.indicator.img = cairo.ImageSurface(cairo.Format.ARGB32, data.width, data.height) data.indicator.cr = cairo.Context(data.indicator.img) else data.indicator.cr:set_operator(cairo.Operator.CLEAR) data.indicator.cr:paint() data.indicator.cr:set_operator(cairo.Operator.SOURCE) end data.indicator.cr:set_source_rgb(1,0,0) -- The Inner dot around the dotted circle local littledot_rad = 5 local dot = shape.transform(shape.circle) : translate( data.width/2 + (default.base_radius-20)*math.cos(angle) -littledot_rad, data.width/2 + (default.base_radius-20)*math.sin(angle) -littledot_rad ) dot(data.indicator.cr, 2*littledot_rad, 2*littledot_rad) data.indicator.cr:fill() -- The little arc on top of the border data.indicator.cr:set_line_width(4) data.indicator.cr:arc( data.width/2,data.height/2,default.radius + default.base_radius ,angle-0.15,angle+0.15 ) data.indicator.cr:stroke() -- The Big red dot TODO make it move dot = shape.transform(shape.circle) : translate( data.width/2+170 -2*littledot_rad, data.height/2 -2*littledot_rad ) dot(data.indicator.cr, 4*littledot_rad, 4*littledot_rad) data.indicator.cr:fill() data.angle_cache = data.angle end return data.indicator.img end local function create_inner_circle() if not data.inner then data.inner = {} data.inner.img = cairo.ImageSurface(cairo.Format.ARGB32, data.width, data.height) data.inner.cr = cairo.Context(data.inner.img) data.inner.cr:set_line_width(3) data.inner.cr:set_source_rgb(0.9,0.9,0.9) data.inner.cr:arc ( data.width/2,data.height/2,default.base_radius,0,2*math.pi ) data.inner.cr:close_path() data.inner.cr:stroke() data.inner.cr:arc ( data.width/2,data.height/2,default.base_radius-20,0,2*math.pi ) data.inner.cr:close_path() data.inner.cr:set_dash({10,4},1) data.inner.cr:stroke() end return data.inner.img end local function clear_center(layer) local dat_layer = data.layers[layer] local rad = default.base_radius+(layer-1)*default.radius dat_layer.cr:set_operator(cairo.Operator.CLEAR) dat_layer.cr:set_source_rgba ( 0 , 0 , 0,1 ) dat_layer.cr:move_to ( data.width/2, data.height/2 ) dat_layer.cr:arc (data.width/2,data.height/2,rad,0,2*math.pi ) dat_layer.cr:fill ( ) end local function gen_arc(layer) data.layers[layer].position = (data.layers[layer].position or 0) + 1 local sef_count = #data.layers[layer].content local position = data.layers[layer].position local dat_layer = data.layers[layer] local outer_radius = layer*default.radius + default.base_radius local inner_radius = outer_radius - default.radius local start_angle = ((2*math.pi)/sef_count)*(position-1) local end_angle = ((2*math.pi)/sef_count)*(position) dat_layer.cr:set_operator(cairo.Operator.SOURCE) if data.layers[layer].selected == position then dat_layer.cr:set_source ( color(beautiful.fg_focus) ) else dat_layer.cr:set_source_rgb((5+(21-5)/sef_count*position)/256,(10+(119-10)/sef_count*position)/256,(27+(209-27)/sef_count*position)/256) end dat_layer.cr:move_to ( data.width/2, data.height/2 ) dat_layer.cr:arc ( data.width/2,data.height/2,outer_radius,start_angle,end_angle ) dat_layer.cr:fill_preserve ( ) dat_layer.cr:set_source_rgb(90/256,51/256,83/256) dat_layer.cr:close_path() dat_layer.cr:stroke() clear_center(layer) end local function draw_text(cr,text, start_angle, end_angle, layer) if not text then return end local img2 = cairo.ImageSurface(cairo.Format.ARGB32, 20, 20) local cr2 = cairo.Context(img2) local level =0 local step = (2*math.pi)/(((math.pi*2*(default.base_radius + default.radius*layer - 3 - level*12))/4)*0.65) --relation between arc and char width local testAngle = start_angle + 0.05 cr2:select_font_face("monospace") local img = gen_text_mask(data,layer,#data.layers[layer].content,text) cr:set_source_surface(img,100,60) cr:paint() -- for i=1,text:len() do -- cr2:set_operator(cairo.Operator.CLEAR) -- cr2:paint() -- cr2:set_operator(cairo.Operator.SOURCE) -- cr2:set_source_rgb(1,1,1) -- cr2:move_to(0,10) -- cr2:text_path(text:sub(i,i)) -- cr2:fill() -- local matrix12 = cairo.Matrix() -- cairo.Matrix.init_rotate(matrix12, -testAngle ) -- matrix12:translate(-data.width/2+(default.base_radius + default.radius*layer - 3 - level*12)*(math.sin( - testAngle)),-data.height/2+(default.base_radius + default.radius*layer - 3 - level*12)*(math.cos( -testAngle))) -- local pattern = cairo.Pattern.create_for_surface(img2,20,20) -- pattern:set_matrix(matrix12) -- cr:set_source(pattern) -- cr:paint() -- testAngle=testAngle+step -- if testAngle+step > end_angle - 0.05 then -- testAngle = start_angle+0.05 -- level = level +1 -- if level > 2 then -- break -- end -- end -- end end local function repaint_layer(idx,content) local lay = data.layers[idx] if not lay then data.layers[idx] = {} lay = data.layers[idx] lay.img = cairo.ImageSurface(cairo.Format.ARGB32, data.width, data.height) lay.cr = cairo.Context(lay.img) lay.cr:set_line_width(3) end local real_rad = data.angle or 0 if real_rad >= 0 then real_rad = math.pi*2 - real_rad else real_rad = -real_rad end local count = #(lay.content or {}) local new_selected = count - math.floor( (real_rad)/(2*math.pi) * count ) if content or (lay.content and new_selected ~= lay.selected) then lay.content = content or lay.content lay.cr:set_operator(cairo.Operator.CLEAR) lay.cr:paint() lay.position = 0 lay.selected = new_selected for k,v in ipairs(lay.content) do gen_arc(idx,v) end lay.count = #lay.content end return lay.img end local function compose() if not data.compose.img then data.compose.img = cairo.ImageSurface(cairo.Format.ARGB32, data.width, data.height) data.compose.cr = cairo.Context(data.compose.img) else data.compose.cr:set_operator(cairo.Operator.CLEAR) data.compose.cr:paint() data.compose.cr:set_operator(cairo.Operator.OVER) end local cr = data.compose.cr for i=#data.layers,1,-1 do cr:set_source_surface(repaint_layer(i),0,0) cr:paint() for k,v in ipairs(data.layers[i].content) do local dr = (2*math.pi)/#data.layers[i].content -- print("BLA BLA",k,i) local r1 = dr*(k-1) -- print(i,k,r1) if i == 2 and k == 1 then draw_text(cr,"1234567890123456789012345678901234567890123456789012345678901234567890",r1,r1+dr,i) end end end cr:set_source_surface(create_inner_circle(),0,0) cr:paint() cr:set_source_surface(position_indicator_layer(),0,0) cr:paint() end function data:set_layer(idx,content) if not data.w then data.w =wibox({}) data.w.ontop = true data.w.visible = true data.w.width = data.width-- width data.w.height = data.height data.w.x = capi.mouse.coords().x - data.width/2 data.w.y = capi.mouse.coords().y - data.height/2 data.ib = data.ib or wibox.widget.imagebox() data.w:set_widget(data.ib) end repaint_layer(idx,content) end data:set_layer(1,{ {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, }) data:set_layer(2,{ {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, {name="test",icon="",func = function(menu,...) end }, }) local focal = nil capi.mousegrabber.run(function(mouse) if not focal then focal = {x= mouse.x,y=mouse.y} end if mouse.buttons[3] == true then capi.mousegrabber.stop() focal = nil return false end local angle = math.atan2((mouse.y-focal.y),(mouse.x-focal.x)) data.tan = (mouse.y-focal.y)/(mouse.x-focal.x) data.angle = angle compose() data.ib:set_image(data.compose.img) data.w.shape_bounding = data.compose.img._native return true end,"fleur") return data end local function get_direction(data) return "left" -- Nothing to do end local function set_position(self) return --Nothing to do end local function setup_drawable(data) local internal = data._internal local private_data = internal.private_data --Init -- internal.w = wibox({}) internal.margin = wibox.layout.margin() if not data.layout then data.layout = layout.vertical end internal.layout = wibox.layout.fixed.horizontal() --data.layout(data) --TODO fix internal.margin:set_widget(internal.layout) --Getters data.get_wibox = function() return nil end -- Will this break? data.get_x = function() return 0 end data.get_y = function() return 0 end data.get_width = function() return 500 end data.get_height = function() return 40 end data.get_visible = function() return private_data.visible end data.get_direction = function() return private_data.direction end data.get_margins = function() local ret = {left=data.border_width,right=data.border_width,top=data.style.margins.TOP,bottom=data.style.margins.BOTTOM} if data.arrow_type ~= base.arrow_type.NONE then ret[data.direction] = ret[data.direction]+13 end return ret end --Setters function internal:set_visible(value) -- TODO end end local function setup_item(data,item,args) -- Add widgets local tb = wibox.widget.textbox() data._internal.layout:add(tb) item.widget = tb tb:set_text("bob") end local function new(args) local args = args or {} args.internal = args.internal or {} args.internal.get_direction = args.internal.get_direction or get_direction args.internal.set_position = args.internal.set_position or set_position args.internal.setup_drawable = args.internal.setup_drawable or setup_drawable args.internal.setup_item = args.internal.setup_item or setup_item args.style = args.style or arrow_style local ret = base(args) ret:connect_signal("clear::menu",function(_,vis) ret._internal.layout:reset() end) ret:connect_signal("_hidden::changed",function(_,item) item.widget:emit_signal("widget::updated") end) return ret end return setmetatable(module, { __call = function(_, ...) return new(...) end }) -- kate: space-indent on; indent-width 2; replace-tabs on;