--[[
-
- Licensed under GNU General Public License v2
- * (c) 2014 projektile, worron
- * (c) 2013 Luke Bonham
- * (c) 2009 Donald Ephraim Curtis
- * (c) 2008 Julien Danjolu
-
+
+ Licensed under GNU General Public License v2
+ * (c) 2014, projektile, worron
+ * (c) 2013, Luke Bonham
+ * (c) 2009, Donald Ephraim Curtis
+ * (c) 2008, Julien Danjolu
+
--]]
local tag = require("awful.tag")
return { x = geometry.y, y = geometry.x, width = geometry.height, height = geometry.width }
end
--- Find geometry for column/row tiling
-local function cut_area(wa, total, index, is_horizontal)
- local wa = is_horizontal and swap(wa) or wa
- local height = wa.height / total
+-- Find geometry for secondary windows column
+local function cut_column(wa, n, index)
+ local width = wa.width / n
+ local area = { x = wa.x + (index - 1) * width, y = wa.y, width = width, height = wa.height }
- local area = {
- x = wa.x,
- y = wa.y + (index - 1) * height,
- width = wa.width,
- height = height
- }
+ return area
+end
- if is_horizontal then area = swap(area) end
+-- Find geometry for certain window in column
+local function cut_row(wa, factor, index, used)
+ local height = wa.height * factor.window[index] / factor.total
+ local area = { x = wa.x, y = wa.y + used, width = wa.width, height = height }
return area
end
geometry.y = geometry.y + useless_gap / 2
end
+-- Check size factor for group of clients and calculate total
+local function calc_factor(n, winfactors)
+ local factor = { window = winfactors, total = 0, min = 1 }
+
+ for i = 1, n do
+ if not factor.window[i] then
+ factor.window[i] = factor.min
+ else
+ factor.min = math.min(factor.window[i], factor.min)
+ if factor.window[i] < 0.05 then factor.window[i] = 0.05 end
+ end
+ factor.total = factor.total + factor.window[i]
+ end
+
+ return factor
+end
+
-- Tile group of clients in given area
-- @canvas need for proper transformation only
-local function tile_column(canvas, area, list, useless_gap, transformation)
+-- @winfactors table with clients size factors
+local function tile_column(canvas, area, list, useless_gap, transformation, winfactors)
+ local used = 0
+ local factor = calc_factor(#list, winfactors)
+
for i, c in ipairs(list) do
- local g = cut_area(area, #list, i)
+ local g = cut_row(area, factor, i, used)
+ used = used + g.height
-- swap workarea dimensions
if transformation.flip then g = flip(canvas, g) end
mwfact = 1
end
+ -- clients size factor
+ local data = tag.getdata(t).windowfact
+
+ if not data then
+ data = {}
+ tag.getdata(t).windowfact = data
+ end
+
-- Workarea size correction depending on useless gap and global border
wa.height = wa.height - 2 * global_border - useless_gap
wa.width = wa.width - 2 * global_border - useless_gap
height = wa.height
}
- tile_column(wa, master_area, cls_master, useless_gap, transformation)
+ if not data[0] then data[0] = {} end
+ tile_column(wa, master_area, cls_master, useless_gap, transformation, data[0])
-- Tile other windows
local other_area = {
-- get column number for other windows
local ncol = math.min(tag.getncol(t), #cls_other)
+ if ncol == 0 then ncol = 1 end
+
-- split other windows to column groups
local last_small_column = ncol - #cls_other % ncol
local rows_min = math.floor(#cls_other / ncol)
client_index = client_index + 1
end
- -- and tile
- local column_area = cut_area(other_area, ncol, position, true)
- tile_column(wa, column_area, column, useless_gap, transformation)
+ -- and tile
+ local column_area = cut_column(other_area, ncol, position)
+
+ if not data[i] then data[i] = {} end
+ tile_column(wa, column_area, column, useless_gap, transformation, data[i])
end
end