legacy-dotfiles/.config/awesome/keychain.lua

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2012-09-12 23:15:44 +02:00
-- -*- coding: utf-8 -*-
--------------------------------------------------------------------------------
-- @author Nicolas Berthier <nberthier@gmail.com>
-- @copyright 2010 Nicolas Berthier
--------------------------------------------------------------------------------
--
-- This is a module for defining keychains à la emacs in awesome. I was also
-- inspired by ion3 behavior when designing it.
--
-- Remarks:
--
-- - This module does not handle `release' key bindings, but is it useful for
-- keychains?
--
-- - It has not been tested with multiple screens yet.
--
-- - There might (... must) be incompatibilities with the shifty module. Also,
-- defining global and per-client keychains with the same prefix is not
-- allowed (or leads to unspecified behaviors... --- in practice: the
-- per-client ones are ignored). However, I do think separation of per-client
-- and global keys is a bad idea if client keys do not have a higher priority
-- than the global ones...
--
-- Example usage: see `rc.lua' file.
--
--------------------------------------------------------------------------------
--{{{ Grab environment (mostly aliases)
local setmetatable = setmetatable
local ipairs = ipairs
local type = type
local pairs = pairs
local string = string
local print = print
local error = error
local io = io
local capi = capi
local client = client
local awesome = awesome
local root = root
local akey = require ("awful.key")
local join = awful.util.table.join
local clone = awful.util.table.clone
--}}}
module ("keychain")
-- Privata data: we use weak keys in order to allow collection of private data
-- if keys (clients) are collected (i.e., no longer used, after having been
-- killed for instance)
local data = setmetatable ({}, { __mode = 'k' })
--{{{ Functional Tuples
-- see http://lua-users.org/wiki/FunctionalTuples for details
--- Creates a keystroke representation to fill the `escape' table configuration
--- property.
-- @param m Modifiers table.
-- @param k The key itself.
-- @return A keystroke representation (only for the escape sequence, for now?).
function keystroke (m, k)
if type (m) ~= "table" then
error ("Keystroke modifiers must be given a table (got a "..
type (m)..")")
end
if type (k) ~= "string" then
error ("Keystroke key must be given a string (got a "..
type (m)..")")
end
return function (fn) return fn (m, k) end
end
-- keystroke accessors
local function ks_mod (_m, _k) return _m end
local function ks_key (_m, _k) return _k end
-- ---
--- Creates a final keychain binding to fill the keychain binding tables,
--- meaning that the given function will be executed at the end of the keychain.
-- @param m Modifiers table.
-- @param k The key.
-- @param cont The function to be bound to the given keys.
-- @return A "final" key binding.
function key (m, k, cont)
if type (cont) ~= "function" then
error ("Final binding must be given a function (got a "..
type (cont)..")")
end
return function (fn) return fn (keystroke (m, k), cont, true) end
end
--- Creates an intermediate (prefix) keychain binding.
-- @param m Modifiers table.
-- @param k The key.
-- @param sub The subchain description table to be bound to the given keys.
-- @return An "intermediate" key binding.
function subchain (m, k, sub)
if type (sub) ~= "table" then
error ("Subchain binding must be given a table (got a "..
type (sub)..")")
end
return function (fn) return fn (keystroke (m, k), sub, false) end
end
-- key/subchain binding accessors
local function binding_ks (ks, cont, leaf) return ks end
local function binding_cont (ks, cont, leaf) return cont end
local function binding_leaf (ks, cont, leaf) return leaf end
--- Creates an intermediate keychain if sub is a table, or a final key binding
--- otherwise (and then sub must be a function).
-- @param m Modifiers table.
-- @param k The key.
-- @param sub Either the subchain description table, or the function, to be
-- bound to the given keys.
function sub (m, k, sub)
if type (sub) == "table" then
return subchain (m, k, sub)
else
return key (m, k, sub)
end
end
--}}}
--{{{ Default values
--- Default escape sequences (S-g is inspired by emacs...)
local escape_keystrokes = {
keystroke ( { }, "Escape" ),
keystroke ( { "Mod4" }, "g" ),
}
--}}}
--{{{ Key table management facilities
local function set_keys (c, k)
if c == root then root.keys (k) else c:keys (k) end
end
local function keys_of (c)
if c == root then return root.keys () else return c:keys () end
end
--}}}
--{{{ Signal emission helper
local function notif (sig, w, ...)
if w ~= root then
client.emit_signal (sig, w, ...)
else -- we use global signals otherwise
awesome.emit_signal (sig, ...)
end
end
--}}}
--{{{ Client/Root-related state management
local function init_client_state_maybe (w)
if data[w] == nil then
local d = { }
d.keys = keys_of (w) -- save client keys
data[w] = d -- register client
notif ("keychain::enter", w)
end
end
local function restore_client_state (c)
local w = c or root
local d = data[w]
-- XXX: Turns out that `d' can be nil already here, in case the keyboard has
-- been grabbed since the previous call to this funtion... (that also seems
-- to be called again upon release…)
if d then
set_keys (w, d.keys) -- restore client keys
data[w] = nil -- unregister client
end
end
local function leave (c)
local w = c or root
-- Destroy notifier structures if needed
if data[w] then -- XXX: necessary test?
notif ("keychain::leave", w)
end
end
-- force disposal of resources when clients are killed
client.add_signal ("unmanage", leave)
--}}}
--{{{ Key binding tree access helpers
local function make_on_entering (m, k, subchain) return
function (c)
local w = c or root
-- Register and initialize client state, if not already in a keychain
init_client_state_maybe (w)
-- Update notifier text, and trigger its drawing if necessary
notif ("keychain::append", w, m, k)
-- Setup subchain
set_keys (w, subchain)
end
end
local function on_leaving (c)
-- Trigger disposal routine
leave (c)
-- Restore initial key mapping of client
restore_client_state (c)
end
--}}}
--{{{ Configuration
-- Flag to detect late initialization error
local already_used = false
-- Escape binding table built once upon initialization
local escape_bindings = { }
--- Fills the escape bindings table with actual `awful.key' elements triggering
--- execution of `on_leaving'.
local function init_escape_bindings ()
escape_bindings = { }
for _, e in ipairs (escape_keystrokes) do
escape_bindings = join (escape_bindings,
akey (e (ks_mod), e (ks_key), on_leaving))
end
end
-- Call it once upon module loading to initialize escape_bindings (in case
-- `init' is not called).
init_escape_bindings ()
--- Initializes the keychain module, with given properties; to be called before
--- ANY other function of this module.
-- Configurations fields include:
--
-- `escapes': A table of keystrokes (@see keychain.keystroke) escaping keychains
-- (defaults are `Mod4-g' and `Escape').
--
-- @param c The table of properties.
function init (c)
local c = c or { }
if already_used then
-- heum... just signal the error: "print" or "error"?
return print ("E: keychain: Call to `init' AFTER having bound keys!")
end
escape_keystrokes = c.escapes and c.escapes or escape_keystrokes
-- Now, fill the escape bindings table again with actual `awful.key'
-- elements triggering `on_leaving' executions, in case escape keys has
-- changed.
init_escape_bindings ()
end
--}}}
--{{{ Keychain creation
--- Creates a new keychain binding.
-- @param m Modifiers table.
-- @param k The key.
-- @param chains A table of keychains, describing either final bindings (see
-- key constructor) or subchains (see subchain constructor). If arg is not a
-- table, then `awful.key' is called directly with the arguments.
-- @return A key binding for the `awful.key' module.
-- @see awful.key
function new (m, k, chains)
-- If the argument is a function, then we need to return an actual awful.key
-- directly.
if type (chains) ~= "table" then
return akey (m, k, chains)
end
-- This table will contain the keys to be mapped upon <m, k> keystroke. It
-- initially contains the escape bindings, so that one can still rebind them
-- differently in `chains'.
local subchain = clone (escape_bindings)
already_used = true -- subsequent init avoidance flag...
-- For each entry of the given chains, add a corresponding `awful.key'
-- element in the subchain
for _, e in ipairs (chains) do
local ks = e (binding_ks)
if e (binding_leaf) then
-- We encountered a leaf in the chains.
local function on_leaf (c) on_leaving (c); e (binding_cont) (c) end
subchain = join (subchain, akey (ks (ks_mod), ks (ks_key), on_leaf))
else
-- Recursively call subchain creation. "Funny" detail: I think there
-- is no way of creating ill-structured keychain descriptors that
-- would produce infinite recursive calls here, since we control
-- their creation with functional tuples, that cannot lead to cyclic
-- structures...
local subch = new (ks (ks_mod), ks (ks_key), e (binding_cont))
subchain = join (subchain, subch)
end
end
-- Then return an actual `awful.key', triggering the `on_entering' routine
return akey (m, k, make_on_entering (m, k, subchain))
end
--}}}
-- Setup `__call' entry in module's metatable so that we can create new prefix
-- binding using `keychain (m, k, ...)' directly.
setmetatable (_M, { __call = function (_, ...) return new (...) end })
-- Local variables:
-- indent-tabs-mode: nil
-- fill-column: 80
-- lua-indent-level: 4
-- End:
-- vim: filetype=lua:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:encoding=utf-8:textwidth=80