if not modules then modules = { } end modules ['util-seq'] = {
version = 1.001,
comment = "companion to luat-lib.mkiv",
author = "Hans Hagen, PRAGMA-ADE, Hasselt NL",
copyright = "PRAGMA ADE / ConTeXt Development Team",
license = "see context related readme files"
}
--[[ldx--
Here we implement a mechanism for chaining the special functions
that we use in to deal with mode list processing. We
assume that namespaces for the functions are used, but for speed we
use locals to refer to them when compiling the chain.
--ldx]]--
-- todo: delayed: i.e. we register them in the right order already but delay usage
-- todo: protect groups (as in tasks)
local gsub, concat, gmatch = string.gsub, table.concat, string.gmatch
local type, load = type, load
utilities = utilities or { }
local tables = utilities.tables
local allocate = utilities.storage.allocate
local formatters = string.formatters
local sequencers = { }
utilities.sequencers = sequencers
local functions = allocate()
sequencers.functions = functions
local removevalue = tables.removevalue
local replacevalue = tables.replacevalue
local insertaftervalue = tables.insertaftervalue
local insertbeforevalue = tables.insertbeforevalue
local function validaction(action)
if type(action) == "string" then
local g = _G
for str in gmatch(action,"[^%.]+") do
g = g[str]
if not g then
return false
end
end
end
return true
end
local compile
local known = { } -- just a convenience, in case we want public access (only to a few methods)
function sequencers.new(t) -- was reset
local s = {
list = { },
order = { },
kind = { },
askip = { },
gskip = { },
dirty = true,
runner = nil,
}
if t then
s.arguments = t.arguments
s.returnvalues = t.returnvalues
s.results = t.results
local name = t.name
if name and name ~= "" then
s.name = name
known[name] = s
end
end
table.setmetatableindex(s,function(t,k)
-- this will automake a dirty runner
if k == "runner" then
local v = compile(t,t.compiler)
return v
end
end)
known[s] = s -- saves test for string later on
return s
end
function sequencers.prependgroup(t,group,where)
t = known[t]
if t then
local order = t.order
removevalue(order,group)
insertbeforevalue(order,where,group)
t.list[group] = { }
t.dirty = true
t.runner = nil
end
end
function sequencers.appendgroup(t,group,where)
t = known[t]
if t then
local order = t.order
removevalue(order,group)
insertaftervalue(order,where,group)
t.list[group] = { }
t.dirty = true
t.runner = nil
end
end
function sequencers.prependaction(t,group,action,where,kind,force)
t = known[t]
if t then
local g = t.list[group]
if g and (force or validaction(action)) then
removevalue(g,action)
insertbeforevalue(g,where,action)
t.kind[action] = kind
t.dirty = true
t.runner = nil
end
end
end
function sequencers.appendaction(t,group,action,where,kind,force)
t = known[t]
if t then
local g = t.list[group]
if g and (force or validaction(action)) then
removevalue(g,action)
insertaftervalue(g,where,action)
t.kind[action] = kind
t.dirty = true
t.runner = nil
end
end
end
function sequencers.enableaction(t,action)
t = known[t]
if t then
t.askip[action] = false
t.dirty = true
t.runner = nil
end
end
function sequencers.disableaction(t,action)
t = known[t]
if t then
t.askip[action] = true
t.dirty = true
t.runner = nil
end
end
function sequencers.enablegroup(t,group)
t = known[t]
if t then
t.gskip[action] = false
t.dirty = true
t.runner = nil
end
end
function sequencers.disablegroup(t,group)
t = known[t]
if t then
t.gskip[action] = true
t.dirty = true
t.runner = nil
end
end
function sequencers.setkind(t,action,kind)
t = known[t]
if t then
t.kind[action] = kind
t.dirty = true
t.runner = nil
end
end
function sequencers.removeaction(t,group,action,force)
t = known[t]
local g = t and t.list[group]
if g and (force or validaction(action)) then
removevalue(g,action)
t.dirty = true
t.runner = nil
end
end
function sequencers.replaceaction(t,group,oldaction,newaction,force)
t = known[t]
if t then
local g = t.list[group]
if g and (force or validaction(oldaction)) then
replacevalue(g,oldaction,newaction)
t.dirty = true
t.runner = nil
end
end
end
local function localize(str)
return (gsub(str,"[%.: ]+","_"))
end
local function construct(t)
local list, order, kind, gskip, askip = t.list, t.order, t.kind, t.gskip, t.askip
local arguments, returnvalues, results = t.arguments or "...", t.returnvalues, t.results
local variables, calls, n = { }, { }, 0
for i=1,#order do
local group = order[i]
if not gskip[group] then
local actions = list[group]
for i=1,#actions do
local action = actions[i]
if not askip[action] then
local localized
if type(action) == "function" then
local name = localize(tostring(action))
functions[name] = action
action = formatters["utilities.sequencers.functions.%s"](name)
localized = localize(name) -- shorter than action
else
localized = localize(action)
end
n = n + 1
variables[n] = formatters["local %s = %s"](localized,action)
if not returnvalues then
calls[n] = formatters["%s(%s)"](localized,arguments)
elseif n == 1 then
calls[n] = formatters["local %s = %s(%s)"](returnvalues,localized,arguments)
else
calls[n] = formatters["%s = %s(%s)"](returnvalues,localized,arguments)
end
end
end
end
end
t.dirty = false
if n == 0 then
t.compiled = ""
else
variables = concat(variables,"\n")
calls = concat(calls,"\n")
if results then
t.compiled = formatters["%s\nreturn function(%s)\n%s\nreturn %s\nend"](variables,arguments,calls,results)
else
t.compiled = formatters["%s\nreturn function(%s)\n%s\nend"](variables,arguments,calls)
end
end
-- print(t.compiled)
return t.compiled -- also stored so that we can trace
end
sequencers.tostring = construct
sequencers.localize = localize
compile = function(t,compiler,n) -- already referred to in sequencers.new
local compiled
if not t or type(t) == "string" then
-- weird ... t.compiled = t .. so
return false
end
if compiler then
compiled = compiler(t,n)
t.compiled = compiled
else
compiled = construct(t,n)
end
local runner
if compiled == "" then
runner = false
else
-- inspect(compiled)
runner = compiled and load(compiled)() -- we can use loadstripped here
end
t.runner = runner
return runner
end
sequencers.compile = compile
-- we used to deal with tail as well but now that the lists are always
-- double linked and the kernel function no longer expect tail as
-- argument we stick to head and done (done can probably also go
-- as luatex deals with return values efficiently now .. in the
-- past there was some copying involved, but no longer)
-- todo: use sequencer (can have arguments and returnvalues etc now)
local template_yes_state = [[
%s
return function(head%s)
local ok, done = false, false
%s
return head, done
end]]
local template_yes_nostate = [[
%s
return function(head%s)
%s
return head, true
end]]
local template_nop = [[
return function()
return false, false
end]]
function sequencers.nodeprocessor(t,nofarguments) -- todo: handle 'kind' in plug into tostring
local list, order, kind, gskip, askip = t.list, t.order, t.kind, t.gskip, t.askip
local nostate = t.nostate
local vars, calls, args, n = { }, { }, nil, 0
if nofarguments == 0 then
args = ""
elseif nofarguments == 1 then
args = ",one"
elseif nofarguments == 2 then
args = ",one,two"
elseif nofarguments == 3 then -- from here on probably slower than ...
args = ",one,two,three"
elseif nofarguments == 4 then
args = ",one,two,three,four"
elseif nofarguments == 5 then
args = ",one,two,three,four,five"
else
args = ",..."
end
for i=1,#order do
local group = order[i]
if not gskip[group] then
local actions = list[group]
for i=1,#actions do
local action = actions[i]
if not askip[action] then
local localized = localize(action)
n = n + 1
vars[n] = formatters["local %s = %s"](localized,action)
-- only difference with tostring is kind and rets (why no return)
if nostate then
if kind[action] == "nohead" then
calls[n] = formatters[" %s(head%s)"](localized,args)
else
calls[n] = formatters[" head = %s(head%s)"](localized,args)
end
else
if kind[action] == "nohead" then
calls[n] = formatters[" ok = %s(head%s) if ok then done = true end"](localized,args)
else
calls[n] = formatters[" head, ok = %s(head%s) if ok then done = true end"](localized,args)
end
end
end
end
end
end
local processor = #calls > 0 and formatters[nostate and template_yes_nostate or template_yes_state](concat(vars,"\n"),args,concat(calls,"\n")) or template_nop
-- print(processor)
return processor
end