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|
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--
<p>Here we implement a mechanism for chaining the special functions
that we use in <l n="context"> 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.</p>
--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
|
