--------------------------------------------------------------------------- --- Places client according to special criteria. -- -- @author Julien Danjou <julien@danjou.info> -- @copyright 2008 Julien Danjou -- @release @AWESOME_VERSION@ -- @module awful.placement --------------------------------------------------------------------------- -- Grab environment we need local ipairs = ipairs local pairs = pairs local math = math local table = table local capi = { screen = screen, mouse = mouse, client = client } local client = require("awful.client") local layout = require("awful.layout") local a_screen = require("awful.screen") local dpi = require("beautiful").xresources.apply_dpi local placement = {} --- Check if an area intersect another area. -- @param a The area. -- @param b The other area. -- @return True if they intersect, false otherwise. local function area_intersect_area(a, b) return (b.x < a.x + a.width and b.x + b.width > a.x and b.y < a.y + a.height and b.y + b.height > a.y) end --- Get the intersect area between a and b. -- @param a The area. -- @param b The other area. -- @return The intersect area. local function area_intersect_area_get(a, b) local g = {} g.x = math.max(a.x, b.x) g.y = math.max(a.y, b.y) g.width = math.min(a.x + a.width, b.x + b.width) - g.x g.height = math.min(a.y + a.height, b.y + b.height) - g.y return g end --- Remove an area from a list, splitting the space between several area that -- can overlap. -- @param areas Table of areas. -- @param elem Area to remove. -- @return The new area list. local function area_remove(areas, elem) for i = #areas, 1, -1 do -- Check if the 'elem' intersect if area_intersect_area(areas[i], elem) then -- It does? remove it local r = table.remove(areas, i) local inter = area_intersect_area_get(r, elem) if inter.x > r.x then table.insert(areas, { x = r.x, y = r.y, width = inter.x - r.x, height = r.height }) end if inter.y > r.y then table.insert(areas, { x = r.x, y = r.y, width = r.width, height = inter.y - r.y }) end if inter.x + inter.width < r.x + r.width then table.insert(areas, { x = inter.x + inter.width, y = r.y, width = (r.x + r.width) - (inter.x + inter.width), height = r.height }) end if inter.y + inter.height < r.y + r.height then table.insert(areas, { x = r.x, y = inter.y + inter.height, width = r.width, height = (r.y + r.height) - (inter.y + inter.height) }) end end end return areas end --- Place the client so no part of it will be outside the screen (workarea). -- @client c The client. -- @treturn table The new client geometry. function placement.no_offscreen(c) local c = c or capi.client.focus local geometry = c:geometry() local screen = c.screen or a_screen.getbycoord(geometry.x, geometry.y) local border = c.border_width local screen_geometry = capi.screen[screen].workarea if geometry.x + geometry.width + 2*border > screen_geometry.x + screen_geometry.width then geometry.x = screen_geometry.x + screen_geometry.width - geometry.width - 2*border end if geometry.x < screen_geometry.x then geometry.x = screen_geometry.x end if geometry.y + geometry.height + border > screen_geometry.y + screen_geometry.height then geometry.y = screen_geometry.y + screen_geometry.height - geometry.height - 2*border end if geometry.y < screen_geometry.y then geometry.y = screen_geometry.y end c:geometry(geometry) end --- Place the client where there's place available with minimum overlap. -- @param c The client. function placement.no_overlap(c) local geometry = c:geometry() local screen = c.screen or a_screen.getbycoord(geometry.x, geometry.y) local cls = client.visible(screen) local curlay = layout.get() local areas = { capi.screen[screen].workarea } for i, cl in pairs(cls) do if cl ~= c and cl.type ~= "desktop" and (client.floating.get(cl) or curlay == layout.suit.floating) then areas = area_remove(areas, cl:geometry()) end end -- Look for available space local found = false local new = { x = geometry.x, y = geometry.y, width = 0, height = 0 } for i, r in ipairs(areas) do if r.width >= geometry.width and r.height >= geometry.height and r.width * r.height > new.width * new.height then found = true new = r -- Check if the client's current position is available -- and prefer that one (why move it around pointlessly?) if geometry.x >= r.x and geometry.y >= r.y and geometry.x + geometry.width <= r.x + r.width and geometry.y + geometry.height <= r.y + r.height then new.x = geometry.x new.y = geometry.y end end end -- We did not find an area with enough space for our size: -- just take the biggest available one and go in if not found then for i, r in ipairs(areas) do if r.width * r.height > new.width * new.height then new = r end end end -- Restore height and width new.width = geometry.width new.height = geometry.height return c:geometry(new) end --- Place the client under the mouse. -- @param c The client. -- @return The new client geometry. function placement.under_mouse(c) local c = c or capi.client.focus local c_geometry = c:geometry() local m_coords = capi.mouse.coords() return c:geometry({ x = m_coords.x - c_geometry.width / 2, y = m_coords.y - c_geometry.height / 2 }) end --- Place the client next to the mouse. -- -- It will place `c` next to the mouse pointer, trying the following positions -- in this order: right, left, above and below. -- @client[opt=focused] c The client. -- @tparam[opt=apply_dpi(5)] integer offset The offset from the mouse position. -- @return The new client geometry. function placement.next_to_mouse(c, offset) c = c or capi.client.focus offset = offset or dpi(5) local c_geometry = c:geometry() local c_width = c_geometry.width + (c.border_width * 2) local c_height = c_geometry.height + (c.border_width * 2) local m_coords = capi.mouse.coords() local screen_geometry = capi.screen[capi.mouse.screen].workarea -- Prefer it to be on the right. local x = m_coords.x + offset if x + c_width > screen_geometry.width then -- Then to the left. x = m_coords.x - c_width - offset end if x < screen_geometry.x then -- Then above. x = m_coords.x - math.ceil(c_width / 2) y = m_coords.y - c_height - offset if y < screen_geometry.y then -- Finally below. y = m_coords.y + offset end else y = m_coords.y - math.ceil(c_height / 2) end return c:geometry({ x = x, y = y }) end --- Place the client centered with respect to a parent or the clients screen. -- @param c The client. -- @param[opt] p The parent (nil for screen centering). -- @return The new client geometry. function placement.centered(c, p) local c = c or capi.client.focus local c_geometry = c:geometry() local screen = c.screen or a_screen.getbycoord(c_geometry.x, c_geometry.y) local s_geometry if p then s_geometry = p:geometry() else s_geometry = capi.screen[screen].geometry end return c:geometry({ x = s_geometry.x + (s_geometry.width - c_geometry.width) / 2, y = s_geometry.y + (s_geometry.height - c_geometry.height) / 2 }) end --- Place the client centered on the horizontal axis with respect to a parent or the clients screen. -- @param c The client. -- @param[opt] p The parent (nil for screen centering). -- @return The new client geometry. function placement.center_horizontal(c, p) local c = c or capi.client.focus local c_geometry = c:geometry() local screen = c.screen or a_screen.getbycoord(c_geometry.x, c_geometry.y) local s_geometry if p then s_geometry = p:geometry() else s_geometry = capi.screen[screen].geometry end return c:geometry({ x = s_geometry.x + (s_geometry.width - c_geometry.width) / 2 }) end --- Place the client centered on the vertical axis with respect to a parent or the clients screen. -- @param c The client. -- @param[opt] p The parent (nil for screen centering). -- @return The new client geometry. function placement.center_vertical(c, p) local c = c or capi.client.focus local c_geometry = c:geometry() local screen = c.screen or a_screen.getbycoord(c_geometry.x, c_geometry.y) local s_geometry if p then s_geometry = p:geometry() else s_geometry = capi.screen[screen].geometry end return c:geometry({ y = s_geometry.y + (s_geometry.height - c_geometry.height) / 2 }) end return placement -- vim: filetype=lua:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:textwidth=80