--------------------------------------------------------------------------- -- @author Julien Danjou <julien@danjou.info> -- @copyright 2009 Julien Danjou -- @release @AWESOME_VERSION@ --------------------------------------------------------------------------- local setmetatable = setmetatable local ipairs = ipairs local math = math local table = table local type = type local capi = { image = image, widget = widget } local layout = require("awful.widget.layout") --- A graph widget. module("awful.widget.graph") local data = setmetatable({}, { __mode = "k" }) --- Set the graph border color. -- If the value is nil, no border will be drawn. -- @name set_border_color -- @class function -- @param graph The graph. -- @param color The border color to set. --- Set the graph foreground color as a gradient. -- @name set_gradient_colors -- @class function -- @param graph The graph. -- @param gradient_colors A table with gradients colors. The distance between each color -- can also be specified. Example: { "red", "blue" } or { "red", "green", -- "blue", blue = 10 } to specify blue distance from other colors. --- Set the graph foreground colors gradient angle. Default is 270 degrees -- (horizontal). -- @name set_gradient_angle -- @class function -- @param graph The graph. -- @param gradient_angle Angle of gradient in degrees. --- Set the graph foreground color. -- @name set_color -- @class function -- @param graph The graph. -- @param color The graph color. --- Set the graph background color. -- @name set_background_color -- @class function -- @param graph The graph. -- @param color The graph background color. --- Set the maximum value the graph should handle. -- If "scale" is also set, the graph never scales up below this value, but it -- automatically scales down to make all data fit. -- @name set_max_value -- @class function -- @param graph The graph. -- @param value The value. --- Set the graph to automatically scale its values. Default is false. -- @name set_scale -- @class function -- @param graph The graph. -- @param scale A boolean value --- Set the graph to draw stacks. Default is false. -- @name set_stack -- @class function -- @param graph The graph. -- @param stack A boolean value. --- Set the graph stacking colors. Order matters. -- @name set_stack_colors -- @class function -- @param graph The graph. -- @param stack_colors A table with stacking colors. local properties = { "width", "height", "border_color", "stack", "stack_colors", "gradient_colors", "gradient_angle", "color", "background_color", "max_value", "scale" } local function update(graph) -- Create new empty image local img = capi.image.argb32(data[graph].width, data[graph].height, nil) local max_value = data[graph].max_value local values = data[graph].values local border_width = 0 if data[graph].border_color then border_width = 1 end -- Draw a stacked graph if data[graph].stack then if data[graph].scale then for _, v in ipairs(values) do for __, sv in ipairs(v) do if sv > max_value then max_value = sv end end end end -- Draw the background first img:draw_rectangle(border_width, border_width, data[graph].width - (2 * border_width), data[graph].height, true, data[graph].background_color or "#000000aa") for i = 0, data[graph].width - (2 * border_width) do local rel_i = 0 local rel_x = data[graph].width - border_width - i - 1 if data[graph].stack_colors then for idx, color in ipairs(data[graph].stack_colors) do local stack_values = values[idx] if stack_values and i < #stack_values then local value = stack_values[#stack_values - i] + rel_i img:draw_line(rel_x, border_width - 1 + math.ceil((data[graph].height - 2 * border_width) * (1 - (rel_i / max_value))), rel_x, border_width - 1 + math.ceil((data[graph].height - 2 * border_width) * (1 - (value / max_value))), color or "red") rel_i = value end end end end else if data[graph].scale then for _, v in ipairs(values) do if v > max_value then max_value = v end end end -- Draw full gradient if data[graph].gradient_colors then img:draw_rectangle_gradient(border_width, border_width, data[graph].width - (2 * border_width), data[graph].height - (2 * border_width), data[graph].gradient_colors, data[graph].gradient_angle or 270) else img:draw_rectangle(border_width, border_width, data[graph].width - (2 * border_width), data[graph].height - (2 * border_width), true, data[graph].color or "red") end -- Draw the background on no value if #values ~= 0 then -- Draw reverse for i = 0, #values - 1 do local value = values[#values - i] if value >= 0 then value = value / max_value img:draw_line(data[graph].width - border_width - i - 1, border_width - 1 + math.ceil((data[graph].height - 2 * border_width) * (1 - value)), data[graph].width - border_width - i - 1, border_width - 1, data[graph].background_color or "#000000aa") end end end -- If we didn't draw values in full length, draw a square -- over the last, left, part to reset everything to 0 if #values < data[graph].width - (2 * border_width) then img:draw_rectangle(border_width, border_width, data[graph].width - (2 * border_width) - #values, data[graph].height - (2 * border_width), true, data[graph].background_color or "#000000aa") end end -- Draw the border last so that it overlaps already drawn values if data[graph].border_color then -- Draw the border img:draw_rectangle(0, 0, data[graph].width, data[graph].height, false, data[graph].border_color or "white") end -- Update the image graph.widget.image = img end --- Add a value to the graph -- @param graph The graph. -- @param value The value between 0 and 1. -- @param group The stack color group index. local function add_value(graph, value, group) if not graph then return end local value = value or 0 local values = data[graph].values local max_value = data[graph].max_value value = math.max(0, value) if not data[graph].scale then value = math.min(max_value, value) end if data[graph].stack and group then if not data[graph].values[group] or type(data[graph].values[group]) ~= "table" then data[graph].values[group] = {} end values = data[graph].values[group] end table.insert(values, value) local border_width = 0 if data[graph].border then border_width = 2 end -- Ensure we never have more data than we can draw while #values > data[graph].width - border_width do table.remove(values, 1) end update(graph) return graph end --- Set the graph height. -- @param graph The graph. -- @param height The height to set. function set_height(graph, height) if height >= 5 then data[graph].height = height update(graph) end return graph end --- Set the graph width. -- @param graph The graph. -- @param width The width to set. function set_width(graph, width) if width >= 5 then data[graph].width = width update(graph) end return graph end -- Build properties function for _, prop in ipairs(properties) do if not _M["set_" .. prop] then _M["set_" .. prop] = function(graph, value) data[graph][prop] = value update(graph) return graph end end end --- Create a graph widget. -- @param args Standard widget() arguments. You should add width and height -- key to set graph geometry. -- @return A graph widget. function new(args) local args = args or {} args.type = "imagebox" local width = args.width or 100 local height = args.height or 20 if width < 5 or height < 5 then return end local graph = {} graph.widget = capi.widget(args) graph.widget.resize = false data[graph] = { width = width, height = height, values = {}, max_value = 1 } -- Set methods graph.add_value = add_value for _, prop in ipairs(properties) do graph["set_" .. prop] = _M["set_" .. prop] end graph.layout = args.layout or layout.horizontal.leftright return graph end setmetatable(_M, { __call = function(_, ...) return new(...) end }) -- vim: filetype=lua:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:encoding=utf-8:textwidth=80