lain/layout/centerwork.lua

154 lines
4.3 KiB
Lua

--[[
Licensed under GNU General Public License v2
* (c) 2016, Henrik Antonsson
* (c) 2015, Joerg Jaspert
* (c) 2014, projektile
* (c) 2013, Luke Bonham
* (c) 2010-2012, Peter Hofmann
--]]
local floor = math.floor
local screen = screen
local centerwork = {
name = "centerwork",
horizontal = { name = "centerworkh" }
}
local function do_centerwork(p, orientation)
local t = p.tag or screen[p.screen].selected_tag
local wa = p.workarea
local cls = p.clients
if #cls == 0 then return end
local c = cls[1]
local g = {}
-- Main column, fixed width and height.
local mwfact = t.master_width_factor
local mainhei = floor(wa.height * mwfact)
local mainwid = floor(wa.width * mwfact)
local slavewid = wa.width - mainwid
local slaveLwid = floor(slavewid / 2)
local slaveRwid = slavewid - slaveLwid
local slavehei = wa.height - mainhei
local slaveThei = floor(slavehei / 2)
local slaveBhei = slavehei - slaveThei
local nbrFirstSlaves = floor(#cls / 2)
local nbrSecondSlaves = floor((#cls - 1) / 2)
local slaveFirstDim, slaveSecondDim = 0, 0
if orientation == "vertical" then
if nbrFirstSlaves > 0 then slaveFirstDim = floor(wa.height / nbrFirstSlaves) end
if nbrSecondSlaves > 0 then slaveSecondDim = floor(wa.height / nbrSecondSlaves) end
g.height = wa.height
g.width = mainwid
g.x = wa.x + slaveLwid
g.y = wa.y
else
if nbrFirstSlaves > 0 then slaveFirstDim = floor(wa.width / nbrFirstSlaves) end
if nbrSecondSlaves > 0 then slaveSecondDim = floor(wa.width / nbrSecondSlaves) end
g.height = mainhei
g.width = wa.width
g.x = wa.x
g.y = wa.y + slaveThei
end
if g.width < 1 then g.width = 1 end
if g.height < 1 then g.height = 1 end
p.geometries[c] = g
-- Auxiliary windows.
if #cls <= 1 then return end
for i = 2,#cls do
local c = cls[i]
local g = {}
local rowIndex = floor(i/2)
if orientation == "vertical" then
if i % 2 == 0 then
-- left slave
g.x = wa.x
g.y = wa.y + (rowIndex-1)*slaveFirstDim
g.width = slaveLwid
-- if last slave in left row use remaining space for that slave
if rowIndex == nbrFirstSlaves then
g.height = wa.y + wa.height - g.y
else
g.height = slaveFirstDim
end
else
-- right slave
g.x = wa.x + slaveLwid + mainwid
g.y = wa.y + (rowIndex-1)*slaveSecondDim
g.width = slaveRwid
-- if last slave in right row use remaining space for that slave
if rowIndex == nbrSecondSlaves then
g.height = wa.y + wa.height - g.y
else
g.height = slaveSecondDim
end
end
else
if i % 2 == 0 then
-- top slave
g.x = wa.x + (rowIndex-1)*slaveFirstDim
g.y = wa.y
g.height = slaveThei
-- if last slave in top row use remaining space for that slave
if rowIndex == nbrFirstSlaves then
g.width = wa.x + wa.width - g.x
else
g.width = slaveFirstDim
end
else
-- bottom slave
g.x = wa.x + (rowIndex-1)*slaveSecondDim
g.y = wa.y + slaveThei + mainhei
g.height = slaveBhei
-- if last slave in bottom row use remaining space for that slave
if rowIndex == nbrSecondSlaves then
g.width = wa.x + wa.width - g.x
else
g.width = slaveSecondDim
end
end
end
if g.width < 1 then g.width = 1 end
if g.height < 1 then g.height = 1 end
p.geometries[c] = g
end
end
function centerwork.horizontal.arrange(p)
return do_centerwork(p, "horizontal")
end
function centerwork.arrange(p)
return do_centerwork(p, "vertical")
end
return centerwork