--------------------------------------------------------------------------- --- Magnifier layout module for awful -- -- @author Julien Danjou <julien@danjou.info> -- @copyright 2008 Julien Danjou -- @module awful.layout --------------------------------------------------------------------------- -- Grab environment we need local ipairs = ipairs local math = math local capi = { client = client, screen = screen, mouse = mouse, mousegrabber = mousegrabber } --- The magnifier layout layoutbox icon. -- @beautiful beautiful.layout_magnifier -- @param surface -- @see gears.surface local magnifier = {} function magnifier.mouse_resize_handler(c, corner, x, y) capi.mouse.coords({ x = x, y = y }) local wa = c.screen.workarea local center_x = wa.x + wa.width / 2 local center_y = wa.y + wa.height / 2 local maxdist_pow = (wa.width^2 + wa.height^2) / 4 local prev_coords = {} capi.mousegrabber.run(function (_mouse) if not c.valid then return false end for _, v in ipairs(_mouse.buttons) do if v then prev_coords = { x =_mouse.x, y = _mouse.y } local dx = center_x - _mouse.x local dy = center_y - _mouse.y local dist = dx^2 + dy^2 -- New master width factor local mwfact = dist / maxdist_pow c.screen.selected_tag.master_width_factor = math.min(math.max(0.01, mwfact), 0.99) return true end end return prev_coords.x == _mouse.x and prev_coords.y == _mouse.y end, corner .. "_corner") end function magnifier.arrange(p) -- Fullscreen? local area = p.workarea local cls = p.clients local focus = p.focus or capi.client.focus local t = p.tag or capi.screen[p.screen].selected_tag local mwfact = t.master_width_factor local fidx -- Check that the focused window is on the right screen if focus and focus.screen ~= p.screen then focus = nil end -- If no window is focused or focused window is not tiled, take the first tiled one. if (not focus or focus.floating) and #cls > 0 then focus = cls[1] fidx = 1 end -- Abort if no clients are present if not focus then return end local geometry = {} if #cls > 1 then geometry.width = area.width * math.sqrt(mwfact) geometry.height = area.height * math.sqrt(mwfact) geometry.x = area.x + (area.width - geometry.width) / 2 geometry.y = area.y + (area.height - geometry.height) /2 else geometry.x = area.x geometry.y = area.y geometry.width = area.width geometry.height = area.height end local g = { x = geometry.x, y = geometry.y, width = geometry.width, height = geometry.height } p.geometries[focus] = g if #cls > 1 then geometry.x = area.x geometry.y = area.y geometry.height = area.height / (#cls - 1) geometry.width = area.width -- We don't know the focus window index. Try to find it. if not fidx then for k, c in ipairs(cls) do if c == focus then fidx = k break end end end -- First move clients that are before focused client. for k = fidx + 1, #cls do p.geometries[cls[k]] = { x = geometry.x, y = geometry.y, width = geometry.width, height = geometry.height } geometry.y = geometry.y + geometry.height end -- Then move clients that are after focused client. -- So the next focused window will be the one at the top of the screen. for k = 1, fidx - 1 do p.geometries[cls[k]] = { x = geometry.x, y = geometry.y, width = geometry.width, height = geometry.height } geometry.y = geometry.y + geometry.height end end end --- The magnifier layout. -- @clientlayout awful.layout.suit.magnifier magnifier.name = "magnifier" return magnifier -- vim: filetype=lua:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:textwidth=80