if not modules then modules = { } end modules ['font-ots'] = { -- sequences
version = 1.001,
comment = "companion to font-ini.mkiv",
author = "Hans Hagen, PRAGMA-ADE, Hasselt NL",
copyright = "PRAGMA ADE / ConTeXt Development Team",
license = "see context related readme files",
}
-- to be checked: discrun doesn't seem to do something useful now (except run the
-- check again) so if we need it again we'll do a zwnjrun or so
-- components will go away and be replaced by a property table which simplifies
-- code (also more efficient)
-- beware, on my development machine we test a slightly a more optimized version
-- assumptions:
--
-- cursives don't cross discretionaries
-- marks precede bases
--
-- pitfalls:
--
-- when we append to a dics field we need to set the field in order to update tail
--
-- This is a version of font-otn.lua adapted to the new font loader code. It
-- is a context version which can contain experimental code, but when we
-- have serious patches we will backport to the font-otn files. The plain
-- loader that ships with context also uses this now.
--
-- todo: looks like we have a leak somewhere (probably in ligatures)
-- todo: copy attributes to disc
-- todo: get rid of components, better use the tounicode entry if needed (at all)
--
-- we do some disc juggling where we need to keep in mind that the
-- pre, post and replace fields can have prev pointers to a nesting
-- node ... i wonder if that is still needed
--
-- not possible:
--
-- \discretionary {alpha-} {betagammadelta}
-- {\discretionary {alphabeta-} {gammadelta}
-- {\discretionary {alphabetagamma-} {delta}
-- {alphabetagammadelta}}}
--[[ldx--
This module is a bit more split up that I'd like but since we also want to test
with plain it has to be so. This module is part of
and discussion about improvements and functionality mostly happens on the
mailing list.
The specification of OpenType is kind of vague. Apart from a lack of a proper
free specifications there's also the problem that Microsoft and Adobe
may have their own interpretation of how and in what order to apply features.
In general the Microsoft website has more detailed specifications and is a
better reference. There is also some information in the FontForge help files.
Because there is so much possible, fonts might contain bugs and/or be made to
work with certain rederers. These may evolve over time which may have the side
effect that suddenly fonts behave differently.
After a lot of experiments (mostly by Taco, me and Idris) we're now at yet another
implementation. Of course all errors are mine and of course the code can be
improved. There are quite some optimizations going on here and processing speed
is currently acceptable. Not all functions are implemented yet, often because I
lack the fonts for testing. Many scripts are not yet supported either, but I will
look into them as soon as users ask for it.
The specification leaves room for interpretation. In case of doubt the microsoft
implementation is the reference as it is the most complete one. As they deal with
lots of scripts and fonts, Kai and Ivo did a lot of testing of the generic code and
their suggestions help improve the code. I'm aware that not all border cases can be
taken care of, unless we accept excessive runtime, and even then the interference
with other mechanisms (like hyphenation) are not trivial.
Glyphs are indexed not by unicode but in their own way. This is because there is no
relationship with unicode at all, apart from the fact that a font might cover certain
ranges of characters. One character can have multiple shapes. However, at the
end we use unicode so and all extra glyphs are mapped into a private
space. This is needed because we need to access them and has to include
then in the output eventually.
The initial data table is rather close to the open type specification and also not
that different from the one produced by but we uses hashes instead.
In that table is packed (similar tables are shared) and cached on disk
so that successive runs can use the optimized table (after loading the table is
unpacked). The flattening code used later is a prelude to an even more compact table
format (and as such it keeps evolving).
This module is sparsely documented because it is a moving target. The table format
of the reader changes and we experiment a lot with different methods for supporting
features.
As with the code, we may decide to store more information in the
table.
Incrementing the version number will force a re-cache. We jump the number by one
when there's a fix in the library or code that
results in different tables.
--ldx]]--
local type, next, tonumber = type, next, tonumber
local random = math.random
local formatters = string.formatters
local insert = table.insert
local logs, trackers, nodes, attributes = logs, trackers, nodes, attributes
local registertracker = trackers.register
local registerdirective = directives.register
local fonts = fonts
local otf = fonts.handlers.otf
local trace_lookups = false registertracker("otf.lookups", function(v) trace_lookups = v end)
local trace_singles = false registertracker("otf.singles", function(v) trace_singles = v end)
local trace_multiples = false registertracker("otf.multiples", function(v) trace_multiples = v end)
local trace_alternatives = false registertracker("otf.alternatives", function(v) trace_alternatives = v end)
local trace_ligatures = false registertracker("otf.ligatures", function(v) trace_ligatures = v end)
local trace_contexts = false registertracker("otf.contexts", function(v) trace_contexts = v end)
local trace_marks = false registertracker("otf.marks", function(v) trace_marks = v end)
local trace_kerns = false registertracker("otf.kerns", function(v) trace_kerns = v end)
local trace_cursive = false registertracker("otf.cursive", function(v) trace_cursive = v end)
local trace_preparing = false registertracker("otf.preparing", function(v) trace_preparing = v end)
local trace_bugs = false registertracker("otf.bugs", function(v) trace_bugs = v end)
local trace_details = false registertracker("otf.details", function(v) trace_details = v end)
----- trace_applied = false registertracker("otf.applied", function(v) trace_applied = v end)
local trace_steps = false registertracker("otf.steps", function(v) trace_steps = v end)
local trace_skips = false registertracker("otf.skips", function(v) trace_skips = v end)
local trace_directions = false registertracker("otf.directions", function(v) trace_directions = v end)
local trace_plugins = false registertracker("otf.plugins", function(v) trace_plugins = v end)
local trace_kernruns = false registertracker("otf.kernruns", function(v) trace_kernruns = v end)
local trace_discruns = false registertracker("otf.discruns", function(v) trace_discruns = v end)
local trace_compruns = false registertracker("otf.compruns", function(v) trace_compruns = v end)
local trace_testruns = false registertracker("otf.testruns", function(v) trace_testruns = v end)
----- zwnjruns = true registerdirective("otf.zwnjruns", function(v) zwnjruns = v end)
local optimizekerns = true
local alwaysdisc = true registerdirective("otf.alwaysdisc", function(v) alwaysdisc = v end)
local report_direct = logs.reporter("fonts","otf direct")
local report_subchain = logs.reporter("fonts","otf subchain")
local report_chain = logs.reporter("fonts","otf chain")
local report_process = logs.reporter("fonts","otf process")
local report_warning = logs.reporter("fonts","otf warning")
local report_run = logs.reporter("fonts","otf run")
registertracker("otf.replacements", "otf.singles,otf.multiples,otf.alternatives,otf.ligatures")
registertracker("otf.positions","otf.marks,otf.kerns,otf.cursive")
registertracker("otf.actions","otf.replacements,otf.positions")
registertracker("otf.injections","nodes.injections")
registertracker("*otf.sample","otf.steps,otf.actions,otf.analyzing")
local nuts = nodes.nuts
local tonode = nuts.tonode
local tonut = nuts.tonut
local getfield = nuts.getfield
local setfield = nuts.setfield
local getnext = nuts.getnext
local setnext = nuts.setnext
local getprev = nuts.getprev
local setprev = nuts.setprev
local getboth = nuts.getboth
local setboth = nuts.setboth
local getid = nuts.getid
local getattr = nuts.getattr
local setattr = nuts.setattr
local getprop = nuts.getprop
local setprop = nuts.setprop
local getfont = nuts.getfont
local getsubtype = nuts.getsubtype
local setsubtype = nuts.setsubtype
local getchar = nuts.getchar
local setchar = nuts.setchar
local getdisc = nuts.getdisc
local setdisc = nuts.setdisc
local setlink = nuts.setlink
local ischar = nuts.is_char
local insert_node_after = nuts.insert_after
local copy_node = nuts.copy
local copy_node_list = nuts.copy_list
local find_node_tail = nuts.tail
local flush_node_list = nuts.flush_list
local flush_node = nuts.flush_node
local end_of_math = nuts.end_of_math
local traverse_nodes = nuts.traverse
local traverse_id = nuts.traverse_id
local remove_node = nuts.remove
local setmetatableindex = table.setmetatableindex
local zwnj = 0x200C
local zwj = 0x200D
local wildcard = "*"
local default = "dflt"
local nodecodes = nodes.nodecodes
local glyphcodes = nodes.glyphcodes
local disccodes = nodes.disccodes
local glyph_code = nodecodes.glyph
local glue_code = nodecodes.glue
local disc_code = nodecodes.disc
local math_code = nodecodes.math
local dir_code = nodecodes.dir
local localpar_code = nodecodes.localpar
local discretionary_code = disccodes.discretionary
local ligature_code = glyphcodes.ligature
local privateattribute = attributes.private
-- Something is messed up: we have two mark / ligature indices, one at the injection
-- end and one here ... this is based on KE's patches but there is something fishy
-- there as I'm pretty sure that for husayni we need some connection (as it's much
-- more complex than an average font) but I need proper examples of all cases, not
-- of only some.
local a_state = privateattribute('state')
local injections = nodes.injections
local setmark = injections.setmark
local setcursive = injections.setcursive
local setkern = injections.setkern
local setpair = injections.setpair
local resetinjection = injections.reset
local copyinjection = injections.copy
local setligaindex = injections.setligaindex
local getligaindex = injections.getligaindex
local cursonce = true
local fonthashes = fonts.hashes
local fontdata = fonthashes.identifiers
local fontfeatures = fonthashes.features
local otffeatures = fonts.constructors.features.otf
local registerotffeature = otffeatures.register
local onetimemessage = fonts.loggers.onetimemessage or function() end
local getrandom = utilities and utilities.randomizer and utilities.randomizer.get
otf.defaultnodealternate = "none" -- first last
-- We use a few global variables. The handler can be called nested but this assumes that the
-- same font is used. Nested calls are normally not needed (only for devanagari).
local tfmdata = false
local characters = false
local descriptions = false
local marks = false
local currentfont = false
local factor = 0
local threshold = 0
local checkmarks = false
local sweepnode = nil
local sweepprev = nil
local sweepnext = nil
local sweephead = { }
local notmatchpre = { }
local notmatchpost = { }
local notmatchreplace = { }
local handlers = { }
local isspace = injections.isspace
local getthreshold = injections.getthreshold
-- we use this for special testing and documentation
local checkstep = (nodes and nodes.tracers and nodes.tracers.steppers.check) or function() end
local registerstep = (nodes and nodes.tracers and nodes.tracers.steppers.register) or function() end
local registermessage = (nodes and nodes.tracers and nodes.tracers.steppers.message) or function() end
local function checkdisccontent(d)
local pre, post, replace = getdisc(d)
if pre then for n in traverse_id(glue_code,pre) do print("pre",nodes.idstostring(pre)) break end end
if post then for n in traverse_id(glue_code,post) do print("pos",nodes.idstostring(post)) break end end
if replace then for n in traverse_id(glue_code,replace) do print("rep",nodes.idstostring(replace)) break end end
end
local function logprocess(...)
if trace_steps then
registermessage(...)
end
report_direct(...)
end
local function logwarning(...)
report_direct(...)
end
local f_unicode = formatters["%U"]
local f_uniname = formatters["%U (%s)"]
local f_unilist = formatters["% t (% t)"]
local function gref(n) -- currently the same as in font-otb
if type(n) == "number" then
local description = descriptions[n]
local name = description and description.name
if name then
return f_uniname(n,name)
else
return f_unicode(n)
end
elseif n then
local num, nam = { }, { }
for i=1,#n do
local ni = n[i]
if tonumber(ni) then -- later we will start at 2
local di = descriptions[ni]
num[i] = f_unicode(ni)
nam[i] = di and di.name or "-"
end
end
return f_unilist(num,nam)
else
return ""
end
end
local function cref(dataset,sequence,index)
if not dataset then
return "no valid dataset"
elseif index then
return formatters["feature %a, type %a, chain lookup %a, index %a"](dataset[4],sequence.type,sequence.name,index)
else
return formatters["feature %a, type %a, chain lookup %a"](dataset[4],sequence.type,sequence.name)
end
end
local function pref(dataset,sequence)
return formatters["feature %a, type %a, lookup %a"](dataset[4],sequence.type,sequence.name)
end
local function mref(rlmode)
if not rlmode or rlmode == 0 then
return "---"
elseif rlmode == -1 or rlmode == "+TRT" then
return "r2l"
else
return "l2r"
end
end
-- We can assume that languages that use marks are not hyphenated. We can also assume
-- that at most one discretionary is present.
-- We do need components in funny kerning mode but maybe I can better reconstruct then
-- as we do have the font components info available; removing components makes the
-- previous code much simpler. Also, later on copying and freeing becomes easier.
-- However, for arabic we need to keep them around for the sake of mark placement
-- and indices.
local function copy_glyph(g) -- next and prev are untouched !
local components = getfield(g,"components")
if components then
setfield(g,"components")
local n = copy_node(g)
copyinjection(n,g) -- we need to preserve the lig indices
setfield(g,"components",components)
return n
else
local n = copy_node(g)
copyinjection(n,g) -- we need to preserve the lig indices
return n
end
end
local function flattendisk(head,disc)
local pre, post, replace, pretail, posttail, replacetail = getdisc(disc,true)
local prev, next = getboth(disc)
local ishead = head == disc
setdisc(disc)
flush_node(disc)
if pre then
flush_node_list(pre)
end
if post then
flush_node_list(post)
end
if ishead then
if replace then
if next then
setlink(replacetail,next)
end
return replace, replace
elseif next then
return next, next
else
return -- maybe warning
end
else
if replace then
if next then
setlink(replacetail,next)
end
setlink(prev,replace)
return head, replace
else
setlink(prev,next) -- checks for next anyway
return head, next
end
end
end
local function appenddisc(disc,list)
local pre, post, replace, pretail, posttail, replacetail = getdisc(disc,true)
local posthead = list
local replacehead = copy_node_list(list)
if post then
setlink(posttail,posthead)
else
post = phead
end
if replace then
setlink(replacetail,replacehead)
else
replace = rhead
end
setdisc(disc,pre,post,replace)
end
-- start is a mark and we need to keep that one
local function markstoligature(head,start,stop,char)
if start == stop and getchar(start) == char then
return head, start
else
local prev = getprev(start)
local next = getnext(stop)
setprev(start)
setnext(stop)
local base = copy_glyph(start)
if head == start then
head = base
end
resetinjection(base)
setchar(base,char)
setsubtype(base,ligature_code)
setfield(base,"components",start)
setlink(prev,base)
setlink(base,next)
return head, base
end
end
-- The next code is somewhat complicated by the fact that some fonts can have ligatures made
-- from ligatures that themselves have marks. This was identified by Kai in for instance
-- arabtype: KAF LAM SHADDA ALEF FATHA (0x0643 0x0644 0x0651 0x0627 0x064E). This becomes
-- KAF LAM-ALEF with a SHADDA on the first and a FATHA op de second component. In a next
-- iteration this becomes a KAF-LAM-ALEF with a SHADDA on the second and a FATHA on the
-- third component.
local function getcomponentindex(start) -- we could store this offset in the glyph (nofcomponents)
if getid(start) ~= glyph_code then -- and then get rid of all components
return 0
elseif getsubtype(start) == ligature_code then
local i = 0
local components = getfield(start,"components")
while components do
i = i + getcomponentindex(components)
components = getnext(components)
end
return i
elseif not marks[getchar(start)] then
return 1
else
return 0
end
end
local a_noligature = attributes.private("noligature")
local function toligature(head,start,stop,char,dataset,sequence,markflag,discfound) -- brr head
if getattr(start,a_noligature) == 1 then
-- so we can do: e\noligature{ff}e e\noligature{f}fie (we only look at the first)
return head, start
end
if start == stop and getchar(start) == char then
resetinjection(start)
setchar(start,char)
return head, start
end
-- needs testing (side effects):
local components = getfield(start,"components")
if components then
-- we get a double free .. needs checking
-- flush_node_list(components)
end
--
local prev = getprev(start)
local next = getnext(stop)
local comp = start
setprev(start)
setnext(stop)
local base = copy_glyph(start)
if start == head then
head = base
end
resetinjection(base)
setchar(base,char)
setsubtype(base,ligature_code)
setfield(base,"components",comp) -- start can have components ... do we need to flush?
if prev then
setnext(prev,base)
end
if next then
setprev(next,base)
end
setboth(base,prev,next)
if not discfound then
local deletemarks = markflag ~= "mark"
local components = start
local baseindex = 0
local componentindex = 0
local head = base
local current = base
-- first we loop over the glyphs in start .. stop
while start do
local char = getchar(start)
if not marks[char] then
baseindex = baseindex + componentindex
componentindex = getcomponentindex(start)
elseif not deletemarks then -- quite fishy
setligaindex(start,baseindex + getligaindex(start,componentindex))
if trace_marks then
logwarning("%s: keep mark %s, gets index %s",pref(dataset,sequence),gref(char),getligaindex(start))
end
local n = copy_node(start)
copyinjection(n,start)
head, current = insert_node_after(head,current,n) -- unlikely that mark has components
elseif trace_marks then
logwarning("%s: delete mark %s",pref(dataset,sequence),gref(char))
end
start = getnext(start)
end
-- we can have one accent as part of a lookup and another following
-- local start = components -- was wrong (component scanning was introduced when more complex ligs in devanagari was added)
local start = getnext(current)
while start do
local char = ischar(start)
if char then
if marks[char] then
setligaindex(start,baseindex + getligaindex(start,componentindex))
if trace_marks then
logwarning("%s: set mark %s, gets index %s",pref(dataset,sequence),gref(char),getligaindex(start))
end
start = getnext(start)
else
break
end
else
break
end
end
else
-- discfound ... forget about marks .. probably no scripts that hyphenate and have marks
local discprev, discnext = getboth(discfound)
if discprev and discnext then
-- we assume normalization in context, and don't care about generic ... especially
-- \- can give problems as there we can have a negative char but that won't match
-- anyway
local pre, post, replace, pretail, posttail, replacetail = getdisc(discfound,true)
if not replace then -- todo: signal simple hyphen
local prev = getprev(base)
local current = comp
local previous = nil
local copied = nil
while current do
if getid(current) == glyph_code then
local n = copy_node(current)
if copied then
setlink(previous,n)
else
copied = n
end
previous = n
end
current = getnext(current)
end
setprev(discnext) -- also blocks funny assignments
setnext(discprev) -- also blocks funny assignments
if pre then
setlink(discprev,pre)
end
pre = comp
if post then
setlink(posttail,discnext)
setprev(post)
else
post = discnext
end
setlink(prev,discfound)
setlink(discfound,next)
setboth(base)
setfield(base,"components",copied)
setdisc(discfound,pre,post,base) -- was discretionary_code
base = prev -- restart
end
end
end
return head, base
end
local function multiple_glyphs(head,start,multiple,ignoremarks,what)
local nofmultiples = #multiple
if nofmultiples > 0 then
resetinjection(start)
setchar(start,multiple[1])
if nofmultiples > 1 then
local sn = getnext(start)
for k=2,nofmultiples do
-- untested:
--
-- while ignoremarks and marks[getchar(sn)] then
-- local sn = getnext(sn)
-- end
local n = copy_node(start) -- ignore components
resetinjection(n)
setchar(n,multiple[k])
insert_node_after(head,start,n)
start = n
end
if what == true then
-- we're ok
elseif what > 1 then
local m = multiple[nofmultiples]
for i=2,what do
local n = copy_node(start) -- ignore components
resetinjection(n)
setchar(n,m)
insert_node_after(head,start,n)
start = n
end
end
end
return head, start, true
else
if trace_multiples then
logprocess("no multiple for %s",gref(getchar(start)))
end
return head, start, false
end
end
local function get_alternative_glyph(start,alternatives,value)
local n = #alternatives
if value == "random" then
local r = getrandom and getrandom("glyph",1,n) or random(1,n)
return alternatives[r], trace_alternatives and formatters["value %a, taking %a"](value,r)
elseif value == "first" then
return alternatives[1], trace_alternatives and formatters["value %a, taking %a"](value,1)
elseif value == "last" then
return alternatives[n], trace_alternatives and formatters["value %a, taking %a"](value,n)
end
value = value == true and 1 or tonumber(value)
if type(value) ~= "number" then
return alternatives[1], trace_alternatives and formatters["invalid value %s, taking %a"](value,1)
end
-- local a = alternatives[value]
-- if a then
-- -- some kind of hash
-- return a, trace_alternatives and formatters["value %a, taking %a"](value,a)
-- end
if value > n then
local defaultalt = otf.defaultnodealternate
if defaultalt == "first" then
return alternatives[n], trace_alternatives and formatters["invalid value %s, taking %a"](value,1)
elseif defaultalt == "last" then
return alternatives[1], trace_alternatives and formatters["invalid value %s, taking %a"](value,n)
else
return false, trace_alternatives and formatters["invalid value %a, %s"](value,"out of range")
end
elseif value == 0 then
return getchar(start), trace_alternatives and formatters["invalid value %a, %s"](value,"no change")
elseif value < 1 then
return alternatives[1], trace_alternatives and formatters["invalid value %a, taking %a"](value,1)
else
return alternatives[value], trace_alternatives and formatters["value %a, taking %a"](value,value)
end
end
-- handlers
function handlers.gsub_single(head,start,dataset,sequence,replacement)
if trace_singles then
logprocess("%s: replacing %s by single %s",pref(dataset,sequence),gref(getchar(start)),gref(replacement))
end
resetinjection(start)
setchar(start,replacement)
return head, start, true
end
function handlers.gsub_alternate(head,start,dataset,sequence,alternative)
local kind = dataset[4]
local what = dataset[1]
local value = what == true and tfmdata.shared.features[kind] or what
local choice, comment = get_alternative_glyph(start,alternative,value)
if choice then
if trace_alternatives then
logprocess("%s: replacing %s by alternative %a to %s, %s",pref(dataset,sequence),gref(getchar(start)),gref(choice),comment)
end
resetinjection(start)
setchar(start,choice)
else
if trace_alternatives then
logwarning("%s: no variant %a for %s, %s",pref(dataset,sequence),value,gref(getchar(start)),comment)
end
end
return head, start, true
end
function handlers.gsub_multiple(head,start,dataset,sequence,multiple)
if trace_multiples then
logprocess("%s: replacing %s by multiple %s",pref(dataset,sequence),gref(getchar(start)),gref(multiple))
end
return multiple_glyphs(head,start,multiple,sequence.flags[1],dataset[1])
end
function handlers.gsub_ligature(head,start,dataset,sequence,ligature)
local current = getnext(start)
if not current then
return head, start, false, nil
end
local stop = nil
local startchar = getchar(start)
if marks[startchar] then
while current do
local char = ischar(current,currentfont)
if char then
local lg = ligature[char]
if lg then
stop = current
ligature = lg
current = getnext(current)
else
break
end
else
break
end
end
if stop then
local lig = ligature.ligature
if lig then
if trace_ligatures then
local stopchar = getchar(stop)
head, start = markstoligature(head,start,stop,lig)
logprocess("%s: replacing %s upto %s by ligature %s case 1",pref(dataset,sequence),gref(startchar),gref(stopchar),gref(getchar(start)))
else
head, start = markstoligature(head,start,stop,lig)
end
return head, start, true, false
else
-- ok, goto next lookup
end
end
else
local skipmark = sequence.flags[1]
local discfound = false
local lastdisc = nil
while current do
local char, id = ischar(current,currentfont)
if char then
if skipmark and marks[char] then
current = getnext(current)
else -- ligature is a tree
local lg = ligature[char] -- can there be multiple in a row? maybe in a bad font
if lg then
if not discfound and lastdisc then
discfound = lastdisc
lastdisc = nil
end
stop = current -- needed for fake so outside then
ligature = lg
current = getnext(current)
else
break
end
end
elseif char == false then
-- kind of weird
break
elseif id == disc_code then
-- tricky .. we also need to do pre here
local replace = getfield(current,"replace")
if replace then
-- of{f-}{}{f}e o{f-}{}{f}fe o{-}{}{ff}e (oe and ff ligature)
-- we can end up here when we have a start run .. testruns start at a disc but
-- so here we have the other case: char + disc
while replace do
local char, id = ischar(replace,currentfont)
if char then
local lg = ligature[char] -- can there be multiple in a row? maybe in a bad font
if lg then
ligature = lg
replace = getnext(replace)
else
return head, start, false, false
end
else
return head, start, false, false
end
end
stop = current
end
lastdisc = current
current = getnext(current)
else
break
end
end
local lig = ligature.ligature
if lig then
if stop then
if trace_ligatures then
local stopchar = getchar(stop)
head, start = toligature(head,start,stop,lig,dataset,sequence,skipmark,discfound)
logprocess("%s: replacing %s upto %s by ligature %s case 2",pref(dataset,sequence),gref(startchar),gref(stopchar),gref(lig))
else
head, start = toligature(head,start,stop,lig,dataset,sequence,skipmark,discfound)
end
else
-- weird but happens (in some arabic font)
resetinjection(start)
setchar(start,lig)
if trace_ligatures then
logprocess("%s: replacing %s by (no real) ligature %s case 3",pref(dataset,sequence),gref(startchar),gref(lig))
end
end
return head, start, true, discfound
else
-- weird but happens, pseudo ligatures ... just the components
end
end
return head, start, false, discfound
end
function handlers.gpos_single(head,start,dataset,sequence,kerns,rlmode,step,i,injection)
local startchar = getchar(start)
if step.format == "pair" then
local dx, dy, w, h = setpair(start,factor,rlmode,sequence.flags[4],kerns,injection)
if trace_kerns then
logprocess("%s: shifting single %s by (%p,%p) and correction (%p,%p)",pref(dataset,sequence),gref(startchar),dx,dy,w,h)
end
else
-- needs checking .. maybe no kerns format for single
local k = setkern(start,factor,rlmode,kerns,injection)
if trace_kerns then
logprocess("%s: shifting single %s by %p",pref(dataset,sequence),gref(startchar),k)
end
end
return head, start, false
end
function handlers.gpos_pair(head,start,dataset,sequence,kerns,rlmode,step,i,injection)
local snext = getnext(start)
if not snext then
return head, start, false
else
local prev = start
local done = false
while snext do
local nextchar = ischar(snext,currentfont)
if nextchar then
local krn = kerns[nextchar]
if not krn and marks[nextchar] then
prev = snext
snext = getnext(snext)
elseif not krn then
break
elseif step.format == "pair" then
local a, b = krn[1], krn[2]
if optimizekerns then
-- this permits a mixed table, but we could also decide to optimize this
-- in the loader and use format 'kern'
if not b and a[1] == 0 and a[2] == 0 and a[4] == 0 then
local k = setkern(snext,factor,rlmode,a[3],injection)
if trace_kerns then
logprocess("%s: shifting single %s by %p",pref(dataset,sequence),gref(nextchar),k)
end
done = true
break
end
end
if a and #a > 0 then
local x, y, w, h = setpair(start,factor,rlmode,sequence.flags[4],a,injection)
if trace_kerns then
local startchar = getchar(start)
logprocess("%s: shifting first of pair %s and %s by (%p,%p) and correction (%p,%p) as %s",pref(dataset,sequence),gref(startchar),gref(nextchar),x,y,w,h,injection or "injections")
end
end
if b and #b > 0 then
local x, y, w, h = setpair(snext,factor,rlmode,sequence.flags[4],b,injection)
if trace_kerns then
local startchar = getchar(snext)
logprocess("%s: shifting second of pair %s and %s by (%p,%p) and correction (%p,%p) as %s",pref(dataset,sequence),gref(startchar),gref(nextchar),x,y,w,h,injection or "injections")
end
end
done = true
break
elseif krn ~= 0 then
local k = setkern(snext,factor,rlmode,krn,injection)
if trace_kerns then
logprocess("%s: inserting kern %p between %s and %s as %s",pref(dataset,sequence),k,gref(getchar(prev)),gref(nextchar),injection or "injections")
end
done = true
break
else -- can't happen
break
end
else
break
end
end
return head, start, done
end
end
--[[ldx--
We get hits on a mark, but we're not sure if the it has to be applied so
we need to explicitly test for basechar, baselig and basemark entries.
--ldx]]--
function handlers.gpos_mark2base(head,start,dataset,sequence,markanchors,rlmode)
local markchar = getchar(start)
if marks[markchar] then
local base = getprev(start) -- [glyph] [start=mark]
if base then
local basechar = ischar(base,currentfont)
if basechar then
if marks[basechar] then
while base do
base = getprev(base)
if base then
basechar = ischar(base,currentfont)
if basechar then
if not marks[basechar] then
break
end
else
if trace_bugs then
logwarning("%s: no base for mark %s, case %i",pref(dataset,sequence),gref(markchar),1)
end
return head, start, false
end
else
if trace_bugs then
logwarning("%s: no base for mark %s, case %i",pref(dataset,sequence),gref(markchar),2)
end
return head, start, false
end
end
end
local ba = markanchors[1][basechar]
if ba then
local ma = markanchors[2]
local dx, dy, bound = setmark(start,base,factor,rlmode,ba,ma,characters[basechar],false,checkmarks)
if trace_marks then
logprocess("%s, anchor %s, bound %s: anchoring mark %s to basechar %s => (%p,%p)",
pref(dataset,sequence),anchor,bound,gref(markchar),gref(basechar),dx,dy)
end
return head, start, true
end
elseif trace_bugs then
logwarning("%s: nothing preceding, case %i",pref(dataset,sequence),1)
end
elseif trace_bugs then
logwarning("%s: nothing preceding, case %i",pref(dataset,sequence),2)
end
elseif trace_bugs then
logwarning("%s: mark %s is no mark",pref(dataset,sequence),gref(markchar))
end
return head, start, false
end
function handlers.gpos_mark2ligature(head,start,dataset,sequence,markanchors,rlmode)
local markchar = getchar(start)
if marks[markchar] then
local base = getprev(start) -- [glyph] [optional marks] [start=mark]
if base then
local basechar = ischar(base,currentfont)
if basechar then
if marks[basechar] then
while base do
base = getprev(base)
if base then
basechar = ischar(base,currentfont)
if basechar then
if not marks[basechar] then
break
end
else
if trace_bugs then
logwarning("%s: no base for mark %s, case %i",pref(dataset,sequence),gref(markchar),1)
end
return head, start, false
end
else
if trace_bugs then
logwarning("%s: no base for mark %s, case %i",pref(dataset,sequence),gref(markchar),2)
end
return head, start, false
end
end
end
local ba = markanchors[1][basechar]
if ba then
local ma = markanchors[2]
if ma then
local index = getligaindex(start)
ba = ba[index]
if ba then
local dx, dy, bound = setmark(start,base,factor,rlmode,ba,ma,characters[basechar],false,checkmarks)
if trace_marks then
logprocess("%s, anchor %s, index %s, bound %s: anchoring mark %s to baselig %s at index %s => (%p,%p)",
pref(dataset,sequence),anchor,index,bound,gref(markchar),gref(basechar),index,dx,dy)
end
return head, start, true
else
if trace_bugs then
logwarning("%s: no matching anchors for mark %s and baselig %s with index %a",pref(dataset,sequence),gref(markchar),gref(basechar),index)
end
end
end
elseif trace_bugs then
-- logwarning("%s: char %s is missing in font",pref(dataset,sequence),gref(basechar))
onetimemessage(currentfont,basechar,"no base anchors",report_fonts)
end
elseif trace_bugs then
logwarning("%s: prev node is no char, case %i",pref(dataset,sequence),1)
end
elseif trace_bugs then
logwarning("%s: prev node is no char, case %i",pref(dataset,sequence),2)
end
elseif trace_bugs then
logwarning("%s: mark %s is no mark",pref(dataset,sequence),gref(markchar))
end
return head, start, false
end
function handlers.gpos_mark2mark(head,start,dataset,sequence,markanchors,rlmode)
local markchar = getchar(start)
if marks[markchar] then
local base = getprev(start) -- [glyph] [basemark] [start=mark]
local slc = getligaindex(start)
if slc then -- a rather messy loop ... needs checking with husayni
while base do
local blc = getligaindex(base)
if blc and blc ~= slc then
base = getprev(base)
else
break
end
end
end
if base then
local basechar = ischar(base,currentfont)
if basechar then -- subtype test can go
local ba = markanchors[1][basechar] -- slot 1 has been made copy of the class hash
if ba then
local ma = markanchors[2]
local dx, dy, bound = setmark(start,base,factor,rlmode,ba,ma,characters[basechar],true,checkmarks)
if trace_marks then
logprocess("%s, anchor %s, bound %s: anchoring mark %s to basemark %s => (%p,%p)",
pref(dataset,sequence),anchor,bound,gref(markchar),gref(basechar),dx,dy)
end
return head, start, true
end
end
end
elseif trace_bugs then
logwarning("%s: mark %s is no mark",pref(dataset,sequence),gref(markchar))
end
return head, start, false
end
function handlers.gpos_cursive(head,start,dataset,sequence,exitanchors,rlmode,step,i) -- to be checked
local done = false
local startchar = getchar(start)
if marks[startchar] then
if trace_cursive then
logprocess("%s: ignoring cursive for mark %s",pref(dataset,sequence),gref(startchar))
end
else
local nxt = getnext(start)
while not done and nxt do
local nextchar = ischar(nxt,currentfont)
if not nextchar then
break
elseif marks[nextchar] then
-- should not happen (maybe warning)
nxt = getnext(nxt)
else
local exit = exitanchors[3]
if exit then
local entry = exitanchors[1][nextchar]
if entry then
entry = entry[2]
if entry then
local dx, dy, bound = setcursive(start,nxt,factor,rlmode,exit,entry,characters[startchar],characters[nextchar])
if trace_cursive then
logprocess("%s: moving %s to %s cursive (%p,%p) using anchor %s and bound %s in %s mode",pref(dataset,sequence),gref(startchar),gref(nextchar),dx,dy,anchor,bound,mref(rlmode))
end
done = true
end
end
end
break
end
end
end
return head, start, done
end
--[[ldx--
I will implement multiple chain replacements once I run into a font that uses
it. It's not that complex to handle.
--ldx]]--
local chainprocs = { }
local function logprocess(...)
if trace_steps then
registermessage(...)
end
report_subchain(...)
end
local logwarning = report_subchain
local function logprocess(...)
if trace_steps then
registermessage(...)
end
report_chain(...)
end
local logwarning = report_chain
-- We could share functions but that would lead to extra function calls with many
-- arguments, redundant tests and confusing messages.
-- The reversesub is a special case, which is why we need to store the replacements
-- in a bit weird way. There is no lookup and the replacement comes from the lookup
-- itself. It is meant mostly for dealing with Urdu.
local function reversesub(head,start,stop,dataset,sequence,replacements,rlmode)
local char = getchar(start)
local replacement = replacements[char]
if replacement then
if trace_singles then
logprocess("%s: single reverse replacement of %s by %s",cref(dataset,sequence),gref(char),gref(replacement))
end
resetinjection(start)
setchar(start,replacement)
return head, start, true
else
return head, start, false
end
end
chainprocs.reversesub = reversesub
--[[ldx--
This chain stuff is somewhat tricky since we can have a sequence of actions to be
applied: single, alternate, multiple or ligature where ligature can be an invalid
one in the sense that it will replace multiple by one but not neccessary one that
looks like the combination (i.e. it is the counterpart of multiple then). For
example, the following is valid:
xxxabcdexxx [single a->A][multiple b->BCD][ligature cde->E] xxxABCDExxx
Therefore we we don't really do the replacement here already unless we have the
single lookup case. The efficiency of the replacements can be improved by deleting
as less as needed but that would also make the code even more messy.
--ldx]]--
--[[ldx--
Here we replace start by a single variant.
--ldx]]--
-- To be done (example needed): what if > 1 steps
-- this is messy: do we need this disc checking also in alternaties?
local function reportmoresteps(dataset,sequence)
logwarning("%s: more than 1 step",cref(dataset,sequence))
end
function chainprocs.gsub_single(head,start,stop,dataset,sequence,currentlookup,chainindex)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local current = start
while current do
local currentchar = ischar(current)
if currentchar then
local replacement = steps[1].coverage[currentchar]
if not replacement or replacement == "" then
if trace_bugs then
logwarning("%s: no single for %s",cref(dataset,sequence,chainindex),gref(currentchar))
end
else
if trace_singles then
logprocess("%s: replacing single %s by %s",cref(dataset,sequence,chainindex),gref(currentchar),gref(replacement))
end
resetinjection(current)
setchar(current,replacement)
end
return head, start, true
elseif currentchar == false then
-- can't happen
break
elseif current == stop then
break
else
current = getnext(current)
end
end
return head, start, false
end
--[[ldx--
Here we replace start by a sequence of new glyphs.
--ldx]]--
function chainprocs.gsub_multiple(head,start,stop,dataset,sequence,currentlookup)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local startchar = getchar(start)
local replacement = steps[1].coverage[startchar]
if not replacement or replacement == "" then
if trace_bugs then
logwarning("%s: no multiple for %s",cref(dataset,sequence),gref(startchar))
end
else
if trace_multiples then
logprocess("%s: replacing %s by multiple characters %s",cref(dataset,sequence),gref(startchar),gref(replacement))
end
return multiple_glyphs(head,start,replacement,sequence.flags[1],dataset[1])
end
return head, start, false
end
--[[ldx--
Here we replace start by new glyph. First we delete the rest of the match.
--ldx]]--
-- char_1 mark_1 -> char_x mark_1 (ignore marks)
-- char_1 mark_1 -> char_x
-- to be checked: do we always have just one glyph?
-- we can also have alternates for marks
-- marks come last anyway
-- are there cases where we need to delete the mark
function chainprocs.gsub_alternate(head,start,stop,dataset,sequence,currentlookup)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local kind = dataset[4]
local what = dataset[1]
local value = what == true and tfmdata.shared.features[kind] or what -- todo: optimize in ctx
local current = start
while current do
local currentchar = ischar(current)
if currentchar then
local alternatives = steps[1].coverage[currentchar]
if alternatives then
local choice, comment = get_alternative_glyph(current,alternatives,value)
if choice then
if trace_alternatives then
logprocess("%s: replacing %s by alternative %a to %s, %s",cref(dataset,sequence),gref(char),choice,gref(choice),comment)
end
resetinjection(start)
setchar(start,choice)
else
if trace_alternatives then
logwarning("%s: no variant %a for %s, %s",cref(dataset,sequence),value,gref(char),comment)
end
end
end
return head, start, true
elseif currentchar == false then
-- can't happen
break
elseif current == stop then
break
else
current = getnext(current)
end
end
return head, start, false
end
--[[ldx--
When we replace ligatures we use a helper that handles the marks. I might change
this function (move code inline and handle the marks by a separate function). We
assume rather stupid ligatures (no complex disc nodes).
--ldx]]--
function chainprocs.gsub_ligature(head,start,stop,dataset,sequence,currentlookup,chainindex)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local startchar = getchar(start)
local ligatures = steps[1].coverage[startchar]
if not ligatures then
if trace_bugs then
logwarning("%s: no ligatures starting with %s",cref(dataset,sequence,chainindex),gref(startchar))
end
else
local current = getnext(start)
local discfound = false
local last = stop
local nofreplacements = 1
local skipmark = currentlookup.flags[1] -- sequence.flags?
while current do
-- todo: ischar ... can there really be disc nodes here?
local id = getid(current)
if id == disc_code then
if not discfound then
discfound = current
end
if current == stop then
break -- okay? or before the disc
else
current = getnext(current)
end
else
local schar = getchar(current)
if skipmark and marks[schar] then -- marks
-- if current == stop then -- maybe add this
-- break
-- else
current = getnext(current)
-- end
else
local lg = ligatures[schar]
if lg then
ligatures = lg
last = current
nofreplacements = nofreplacements + 1
if current == stop then
break
else
current = getnext(current)
end
else
break
end
end
end
end
local ligature = ligatures.ligature
if ligature then
if chainindex then
stop = last
end
if trace_ligatures then
if start == stop then
logprocess("%s: replacing character %s by ligature %s case 3",cref(dataset,sequence,chainindex),gref(startchar),gref(ligature))
else
logprocess("%s: replacing character %s upto %s by ligature %s case 4",cref(dataset,sequence,chainindex),gref(startchar),gref(getchar(stop)),gref(ligature))
end
end
head, start = toligature(head,start,stop,ligature,dataset,sequence,skipmark,discfound)
return head, start, true, nofreplacements, discfound
elseif trace_bugs then
if start == stop then
logwarning("%s: replacing character %s by ligature fails",cref(dataset,sequence,chainindex),gref(startchar))
else
logwarning("%s: replacing character %s upto %s by ligature fails",cref(dataset,sequence,chainindex),gref(startchar),gref(getchar(stop)))
end
end
end
return head, start, false, 0, false
end
function chainprocs.gpos_single(head,start,stop,dataset,sequence,currentlookup,rlmode,chainindex)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local startchar = getchar(start)
local step = steps[1]
local kerns = step.coverage[startchar]
if not kerns then
-- skip
elseif step.format == "pair" then
local dx, dy, w, h = setpair(start,factor,rlmode,sequence.flags[4],kerns) -- currentlookup.flags ?
if trace_kerns then
logprocess("%s: shifting single %s by (%p,%p) and correction (%p,%p)",cref(dataset,sequence),gref(startchar),dx,dy,w,h)
end
else -- needs checking .. maybe no kerns format for single
local k = setkern(start,factor,rlmode,kerns,injection)
if trace_kerns then
logprocess("%s: shifting single %s by %p",cref(dataset,sequence),gref(startchar),k)
end
end
return head, start, false
end
function chainprocs.gpos_pair(head,start,stop,dataset,sequence,currentlookup,rlmode,chainindex) -- todo: injections ?
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local snext = getnext(start)
if snext then
local startchar = getchar(start)
local step = steps[1]
local kerns = step.coverage[startchar] -- always 1 step
if kerns then
local prev = start
local done = false
while snext do
local nextchar = ischar(snext,currentfont)
if not nextchar then
break
end
local krn = kerns[nextchar]
if not krn and marks[nextchar] then
prev = snext
snext = getnext(snext)
elseif not krn then
break
elseif step.format == "pair" then
local a, b = krn[1], krn[2]
if optimizekerns then
-- this permits a mixed table, but we could also decide to optimize this
-- in the loader and use format 'kern'
if not b and a[1] == 0 and a[2] == 0 and a[4] == 0 then
local k = setkern(snext,factor,rlmode,a[3],"injections")
if trace_kerns then
logprocess("%s: shifting single %s by %p",cref(dataset,sequence),gref(startchar),k)
end
done = true
break
end
end
if a and #a > 0 then
local startchar = getchar(start)
local x, y, w, h = setpair(start,factor,rlmode,sequence.flags[4],a,"injections") -- currentlookups flags?
if trace_kerns then
logprocess("%s: shifting first of pair %s and %s by (%p,%p) and correction (%p,%p)",cref(dataset,sequence),gref(startchar),gref(nextchar),x,y,w,h)
end
end
if b and #b > 0 then
local startchar = getchar(start)
local x, y, w, h = setpair(snext,factor,rlmode,sequence.flags[4],b,"injections")
if trace_kerns then
logprocess("%s: shifting second of pair %s and %s by (%p,%p) and correction (%p,%p)",cref(dataset,sequence),gref(startchar),gref(nextchar),x,y,w,h)
end
end
done = true
break
elseif krn ~= 0 then
local k = setkern(snext,factor,rlmode,krn)
if trace_kerns then
logprocess("%s: inserting kern %s between %s and %s",cref(dataset,sequence),k,gref(getchar(prev)),gref(nextchar))
end
done = true
break
else
break
end
end
return head, start, done
end
end
return head, start, false
end
function chainprocs.gpos_mark2base(head,start,stop,dataset,sequence,currentlookup,rlmode)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local markchar = getchar(start)
if marks[markchar] then
local markanchors = steps[1].coverage[markchar] -- always 1 step
if markanchors then
local base = getprev(start) -- [glyph] [start=mark]
if base then
local basechar = ischar(base,currentfont)
if basechar then
if marks[basechar] then
while base do
base = getprev(base)
if base then
local basechar = ischar(base,currentfont)
if basechar then
if not marks[basechar] then
break
end
else
if trace_bugs then
logwarning("%s: no base for mark %s, case %i",pref(dataset,sequence),gref(markchar),1)
end
return head, start, false
end
else
if trace_bugs then
logwarning("%s: no base for mark %s, case %i",pref(dataset,sequence),gref(markchar),2)
end
return head, start, false
end
end
end
local ba = markanchors[1][basechar]
if ba then
local ma = markanchors[2]
if ma then
local dx, dy, bound = setmark(start,base,factor,rlmode,ba,ma,characters[basechar],false,checkmarks)
if trace_marks then
logprocess("%s, anchor %s, bound %s: anchoring mark %s to basechar %s => (%p,%p)",
cref(dataset,sequence),anchor,bound,gref(markchar),gref(basechar),dx,dy)
end
return head, start, true
end
end
elseif trace_bugs then
logwarning("%s: prev node is no char, case %i",cref(dataset,sequence),1)
end
elseif trace_bugs then
logwarning("%s: prev node is no char, case %i",cref(dataset,sequence),2)
end
elseif trace_bugs then
logwarning("%s: mark %s has no anchors",cref(dataset,sequence),gref(markchar))
end
elseif trace_bugs then
logwarning("%s: mark %s is no mark",cref(dataset,sequence),gref(markchar))
end
return head, start, false
end
function chainprocs.gpos_mark2ligature(head,start,stop,dataset,sequence,currentlookup,rlmode)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local markchar = getchar(start)
if marks[markchar] then
local markanchors = steps[1].coverage[markchar] -- always 1 step
if markanchors then
local base = getprev(start) -- [glyph] [optional marks] [start=mark]
if base then
local basechar = ischar(base,currentfont)
if basechar then
if marks[basechar] then
while base do
base = getprev(base)
if base then
local basechar = ischar(base,currentfont)
if basechar then
if not marks[basechar] then
break
end
else
if trace_bugs then
logwarning("%s: no base for mark %s, case %i",cref(dataset,sequence),markchar,1)
end
return head, start, false
end
else
if trace_bugs then
logwarning("%s: no base for mark %s, case %i",cref(dataset,sequence),markchar,2)
end
return head, start, false
end
end
end
local ba = markanchors[1][basechar]
if ba then
local ma = markanchors[2]
if ma then
local index = getligaindex(start)
ba = ba[index]
if ba then
local dx, dy, bound = setmark(start,base,factor,rlmode,ba,ma,characters[basechar],false,checkmarks)
if trace_marks then
logprocess("%s, anchor %s, bound %s: anchoring mark %s to baselig %s at index %s => (%p,%p)",
cref(dataset,sequence),anchor,a or bound,gref(markchar),gref(basechar),index,dx,dy)
end
return head, start, true
end
end
end
elseif trace_bugs then
logwarning("%s, prev node is no char, case %i",cref(dataset,sequence),1)
end
elseif trace_bugs then
logwarning("%s, prev node is no char, case %i",cref(dataset,sequence),2)
end
elseif trace_bugs then
logwarning("%s, mark %s has no anchors",cref(dataset,sequence),gref(markchar))
end
elseif trace_bugs then
logwarning("%s, mark %s is no mark",cref(dataset,sequence),gref(markchar))
end
return head, start, false
end
function chainprocs.gpos_mark2mark(head,start,stop,dataset,sequence,currentlookup,rlmode)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local markchar = getchar(start)
if marks[markchar] then
local markanchors = steps[1].coverage[markchar] -- always 1 step
if markanchors then
local base = getprev(start) -- [glyph] [basemark] [start=mark]
local slc = getligaindex(start)
if slc then -- a rather messy loop ... needs checking with husayni
while base do
local blc = getligaindex(base)
if blc and blc ~= slc then
base = getprev(base)
else
break
end
end
end
if base then -- subtype test can go
local basechar = ischar(base,currentfont)
if basechar then
local ba = markanchors[1][basechar]
if ba then
local ma = markanchors[2]
if ma then
local dx, dy, bound = setmark(start,base,factor,rlmode,ba,ma,characters[basechar],true,checkmarks)
if trace_marks then
logprocess("%s, anchor %s, bound %s: anchoring mark %s to basemark %s => (%p,%p)",
cref(dataset,sequence),anchor,bound,gref(markchar),gref(basechar),dx,dy)
end
return head, start, true
end
end
elseif trace_bugs then
logwarning("%s: prev node is no mark, case %i",cref(dataset,sequence),1)
end
elseif trace_bugs then
logwarning("%s: prev node is no mark, case %i",cref(dataset,sequence),2)
end
elseif trace_bugs then
logwarning("%s: mark %s has no anchors",cref(dataset,sequence),gref(markchar))
end
elseif trace_bugs then
logwarning("%s: mark %s is no mark",cref(dataset,sequence),gref(markchar))
end
return head, start, false
end
function chainprocs.gpos_cursive(head,start,stop,dataset,sequence,currentlookup,rlmode)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
local startchar = getchar(start)
local exitanchors = steps[1].coverage[startchar] -- always 1 step
if exitanchors then
local done = false
if marks[startchar] then
if trace_cursive then
logprocess("%s: ignoring cursive for mark %s",pref(dataset,sequence),gref(startchar))
end
else
local nxt = getnext(start)
while not done and nxt do
local nextchar = ischar(nxt,currentfont)
if not nextchar then
break
elseif marks[nextchar] then
-- should not happen (maybe warning)
nxt = getnext(nxt)
else
local exit = exitanchors[3]
if exit then
local entry = exitanchors[1][nextchar]
if entry then
entry = entry[2]
if entry then
local dx, dy, bound = setcursive(start,nxt,factor,rlmode,exit,entry,characters[startchar],characters[nextchar])
if trace_cursive then
logprocess("%s: moving %s to %s cursive (%p,%p) using anchor %s and bound %s in %s mode",pref(dataset,sequence),gref(startchar),gref(nextchar),dx,dy,anchor,bound,mref(rlmode))
end
done = true
break
end
end
elseif trace_bugs then
onetimemessage(currentfont,startchar,"no entry anchors",report_fonts)
end
break
end
end
end
return head, start, done
else
if trace_cursive and trace_details then
logprocess("%s, cursive %s is already done",pref(dataset,sequence),gref(getchar(start)),alreadydone)
end
return head, start, false
end
end
-- what pointer to return, spec says stop
-- to be discussed ... is bidi changer a space?
-- elseif char == zwnj and sequence[n][32] then -- brrr
local function show_skip(dataset,sequence,char,ck,class)
logwarning("%s: skipping char %s, class %a, rule %a, lookuptype %a",cref(dataset,sequence),gref(char),class,ck[1],ck[8] or ck[2])
end
-- A previous version had disc collapsing code in the (single sub) handler plus some
-- checking in the main loop, but that left the pre/post sequences undone. The best
-- solution is to add some checking there and backtrack when a replace/post matches
-- but it takes a bit of work to figure out an efficient way (this is what the sweep*
-- names refer to). I might look into that variant one day again as it can replace
-- some other code too. In that approach we can have a special version for gub and pos
-- which gains some speed. This method does the test and passes info to the handlers
-- (sweepnode, sweepmode, sweepprev, sweepnext, etc). Here collapsing is handled in the
-- main loop which also makes code elsewhere simpler (i.e. no need for the other special
-- runners and disc code in ligature building). I also experimented with pushing preceding
-- glyphs sequences in the replace/pre fields beforehand which saves checking afterwards
-- but at the cost of duplicate glyphs (memory) but it's too much overhead (runtime).
--
-- In the meantime Kai had moved the code from the single chain into a more general handler
-- and this one (renamed to chaindisk) is used now. I optimized the code a bit and brought
-- it in sycn with the other code. Hopefully I didn't introduce errors. Note: this somewhat
-- complex approach is meant for fonts that implement (for instance) ligatures by character
-- replacement which to some extend is not that suitable for hyphenation. I also use some
-- helpers. This method passes some states but reparses the list. There is room for a bit of
-- speed up but that will be done in the context version. (In fact a partial rewrite of all
-- code can bring some more efficientry.)
--
-- I didn't test it with extremes but successive disc nodes still can give issues but in
-- order to handle that we need more complex code which also slows down even more. The main
-- loop variant could deal with that: test, collapse, backtrack.
local new_kern = nuts.pool.kern
local function checked(head)
local current = head
while current do
if getid(current) == glue_code then
local kern = new_kern(getfield(current,"width"))
if head == current then
local next = getnext(current)
if next then
setlink(kern,next)
end
flush_node(current)
head = kern
current = next
else
local prev, next = getboth(current)
setlink(prev,kern)
setlink(kern,next)
flush_node(current)
current = next
end
else
current = getnext(current)
end
end
return head
end
local function setdiscchecked(d,pre,post,replace)
if pre then pre = checked(pre) end
if post then post = checked(post) end
if replace then replace = checked(replace) end
setdisc(d,pre,post,replace)
end
local function chaindisk(head,start,last,dataset,sequence,chainlookup,rlmode,k,ck,chainproc)
if not start then
return head, start, false
end
local startishead = start == head
local seq = ck[3]
local f = ck[4]
local l = ck[5]
local s = #seq
local done = false
local sweepnode = sweepnode
local sweeptype = sweeptype
local sweepoverflow = false
local checkdisc = getprev(head) -- hm bad name head
local keepdisc = not sweepnode
local lookaheaddisc = nil
local backtrackdisc = nil
local current = start
local last = start
local prev = getprev(start)
local hasglue = false
-- fishy: so we can overflow and then go on in the sweep?
-- todo : id can also be glue_code as we checked spaces
local i = f
while i <= l do
local id = getid(current)
if id == glyph_code then
i = i + 1
last = current
current = getnext(current)
elseif id == glue_code then
i = i + 1
last = current
current = getnext(current)
hasglue = true
elseif id == disc_code then
if keepdisc then
keepdisc = false
if notmatchpre[current] ~= notmatchreplace[current] then
lookaheaddisc = current
end
local replace = getfield(current,"replace")
while replace and i <= l do
if getid(replace) == glyph_code then
i = i + 1
end
replace = getnext(replace)
end
last = current
current = getnext(c)
else
head, current = flattendisk(head,current)
end
else
last = current
current = getnext(current)
end
if current then
-- go on
elseif sweepoverflow then
-- we already are folling up on sweepnode
break
elseif sweeptype == "post" or sweeptype == "replace" then
current = getnext(sweepnode)
if current then
sweeptype = nil
sweepoverflow = true
else
break
end
else
break -- added
end
end
if sweepoverflow then
local prev = current and getprev(current)
if not current or prev ~= sweepnode then
local head = getnext(sweepnode)
local tail = nil
if prev then
tail = prev
setprev(current,sweepnode)
else
tail = find_node_tail(head)
end
setnext(sweepnode,current)
setprev(head)
setnext(tail)
appenddisc(sweepnode,head)
end
end
if l < s then
local i = l
local t = sweeptype == "post" or sweeptype == "replace"
while current and i < s do
local id = getid(current)
if id == glyph_code then
i = i + 1
current = getnext(current)
elseif id == glue_code then
i = i + 1
current = getnext(current)
hasglue = true
elseif id == disc_code then
if keepdisc then
keepdisc = false
if notmatchpre[current] ~= notmatchreplace[current] then
lookaheaddisc = current
end
local replace = getfield(c,"replace")
while replace and i < s do
if getid(replace) == glyph_code then
i = i + 1
end
replace = getnext(replace)
end
current = getnext(current)
elseif notmatchpre[current] ~= notmatchreplace[current] then
head, current = flattendisk(head,current)
else
current = getnext(current) -- HH
end
else
current = getnext(current)
end
if not current and t then
current = getnext(sweepnode)
if current then
sweeptype = nil
end
end
end
end
if f > 1 then
local current = prev
local i = f
local t = sweeptype == "pre" or sweeptype == "replace"
if not current and t and current == checkdisk then
current = getprev(sweepnode)
end
while current and i > 1 do -- missing getprev added / moved outside
local id = getid(current)
if id == glyph_code then
i = i - 1
elseif id == glue_code then
i = i - 1
hasglue = true
elseif id == disc_code then
if keepdisc then
keepdisc = false
if notmatchpost[current] ~= notmatchreplace[current] then
backtrackdisc = current
end
local replace = getfield(current,"replace")
while replace and i > 1 do
if getid(replace) == glyph_code then
i = i - 1
end
replace = getnext(replace)
end
elseif notmatchpost[current] ~= notmatchreplace[current] then
head, current = flattendisk(head,current)
end
end
current = getprev(current)
if t and current == checkdisk then
current = getprev(sweepnode)
end
end
end
local ok = false
if lookaheaddisc then
local cf = start
local cl = getprev(lookaheaddisc)
local cprev = getprev(start)
local insertedmarks = 0
while cprev do
local char = ischar(cf,currentfont)
if char and marks[char] then
insertedmarks = insertedmarks + 1
cf = cprev
startishead = cf == head
cprev = getprev(cprev)
else
break
end
end
setprev(lookaheaddisc,cprev)
if cprev then
setnext(cprev,lookaheaddisc)
end
setprev(cf)
setnext(cl)
if startishead then
head = lookaheaddisc
end
local pre, post, replace = getdisc(lookaheaddisc)
local new = copy_node_list(cf)
local cnew = new
for i=1,insertedmarks do
cnew = getnext(cnew)
end
local clast = cnew
for i=f,l do
clast = getnext(clast)
end
if not notmatchpre[lookaheaddisc] then
cf, start, ok = chainproc(cf,start,last,dataset,sequence,chainlookup,rlmode,k)
end
if not notmatchreplace[lookaheaddisc] then
new, cnew, ok = chainproc(new,cnew,clast,dataset,sequence,chainlookup,rlmode,k)
end
if pre then
setlink(cl,pre)
end
if replace then
local tail = find_node_tail(new)
setlink(tail,replace)
end
if hasglue then
setdiscchecked(lookaheaddisc,cf,post,new)
else
setdisc(lookaheaddisc,cf,post,new)
end
start = getprev(lookaheaddisc)
sweephead[cf] = getnext(clast)
sweephead[new] = getnext(last)
elseif backtrackdisc then
local cf = getnext(backtrackdisc)
local cl = start
local cnext = getnext(start)
local insertedmarks = 0
while cnext do
local char = ischar(cnext,currentfont)
if char and marks[char] then
insertedmarks = insertedmarks + 1
cl = cnext
cnext = getnext(cnext)
else
break
end
end
if cnext then
setprev(cnext,backtrackdisc)
end
setnext(backtrackdisc,cnext)
setprev(cf)
setnext(cl)
local pre, post, replace, pretail, posttail, replacetail = getdisc(backtrackdisc,true)
local new = copy_node_list(cf)
local cnew = find_node_tail(new)
for i=1,insertedmarks do
cnew = getprev(cnew)
end
local clast = cnew
for i=f,l do
clast = getnext(clast)
end
if not notmatchpost[backtrackdisc] then
cf, start, ok = chainproc(cf,start,last,dataset,sequence,chainlookup,rlmode,k)
end
if not notmatchreplace[backtrackdisc] then
new, cnew, ok = chainproc(new,cnew,clast,dataset,sequence,chainlookup,rlmode,k)
end
if post then
setlink(posttail,cf)
else
post = cf
end
if replace then
setlink(replacetail,new)
else
replace = new
end
if hasglue then
setdiscchecked(backtrackdisc,pre,post,replace)
else
setdisc(backtrackdisc,pre,post,replace)
end
start = getprev(backtrackdisc)
sweephead[post] = getnext(clast)
sweephead[replace] = getnext(last)
else
head, start, ok = chainproc(head,start,last,dataset,sequence,chainlookup,rlmode,k)
end
return head, start, ok
end
local noflags = { false, false, false, false }
local function handle_contextchain(head,start,dataset,sequence,contexts,rlmode)
local sweepnode = sweepnode
local sweeptype = sweeptype
local currentfont = currentfont
local diskseen = false
local checkdisc = getprev(head)
local flags = sequence.flags or noflags
local done = false
local skipmark = flags[1]
local skipligature = flags[2]
local skipbase = flags[3]
local markclass = sequence.markclass
local skipped = false
for k=1,#contexts do -- i've only seen ccmp having > 1 (e.g. dejavu)
local match = true
local current = start
local last = start
local ck = contexts[k]
local seq = ck[3]
local s = #seq
local size = 1
-- f..l = mid string
if s == 1 then
-- this seldom happens as it makes no sense (bril, ebgaramond, husayni, minion)
local char = ischar(current,currentfont)
if char then
match = seq[1][char]
end
else
-- maybe we need a better space check (maybe check for glue or category or combination)
-- we cannot optimize for n=2 because there can be disc nodes
local f = ck[4]
local l = ck[5]
-- current match
size = l - f + 1
if size > 1 then
-- before/current/after | before/current | current/after
local discfound = nil
local n = f + 1
last = getnext(last) -- the second in current (first already matched)
while n <= l do
if not last and (sweeptype == "post" or sweeptype == "replace") then
last = getnext(sweepnode)
sweeptype = nil
end
if last then
local char, id = ischar(last,currentfont)
if char then
local ccd = descriptions[char]
if ccd then
local class = ccd.class or "base"
if class == skipmark or class == skipligature or class == skipbase or (markclass and class == "mark" and not markclass[char]) then
skipped = true
if trace_skips then
show_skip(dataset,sequence,char,ck,class)
end
last = getnext(last)
elseif seq[n][char] then
if n < l then
last = getnext(last)
end
n = n + 1
else
if discfound then
notmatchreplace[discfound] = true
match = not notmatchpre[discfound]
else
match = false
end
break
end
else
if discfound then
notmatchreplace[discfound] = true
match = not notmatchpre[discfound]
else
match = false
end
break
end
elseif char == false then
if discfound then
notmatchreplace[discfound] = true
match = not notmatchpre[discfound]
else
match = false
end
break
elseif id == disc_code then
diskseen = true
discfound = last
notmatchpre[last] = nil
notmatchpost[last] = true
notmatchreplace[last] = nil
local pre, post, replace = getdisc(last)
if pre then
local n = n
while pre do
if seq[n][getchar(pre)] then
n = n + 1
pre = getnext(pre)
if n > l then
break
end
else
notmatchpre[last] = true
break
end
end
if n <= l then
notmatchpre[last] = true
end
else
notmatchpre[last] = true
end
if replace then
-- so far we never entered this branch
while replace do
if seq[n][getchar(replace)] then
n = n + 1
replace = getnext(replace)
if n > l then
break
end
else
notmatchreplace[last] = true
match = not notmatchpre[last]
break
end
end
match = not notmatchpre[last]
end
-- maybe only if match
last = getnext(last)
else
match = false
break
end
else
match = false
break
end
end
end
-- before
if match and f > 1 then
local prev = getprev(start)
if prev then
if prev == checkdisc and (sweeptype == "pre" or sweeptype == "replace") then
prev = getprev(sweepnode)
-- sweeptype = nil
end
if prev then
local discfound = nil
local n = f - 1
while n >= 1 do
if prev then
local char, id = ischar(prev,currentfont)
if char then
local ccd = descriptions[char]
if ccd then
local class = ccd.class
if class == skipmark or class == skipligature or class == skipbase or (markclass and class == "mark" and not markclass[char]) then
skipped = true
if trace_skips then
show_skip(dataset,sequence,char,ck,class)
end
prev = getprev(prev) -- moved here
elseif seq[n][char] then
if n > 1 then -- new test
prev = getprev(prev) -- moved here
end
n = n - 1
else
if discfound then
notmatchreplace[discfound] = true
match = not notmatchpost[discfound]
else
match = false
end
break
end
else
if discfound then
notmatchreplace[discfound] = true
match = not notmatchpost[discfound]
else
match = false
end
break
end
-- prev = getprev(prev) -- moved up
elseif char == false then
if discfound then
notmatchreplace[discfound] = true
match = not notmatchpost[discfound]
else
match = false
end
break
elseif id == disc_code then
-- the special case: f i where i becomes dottless i ..
diskseen = true
discfound = prev
notmatchpre[prev] = true
notmatchpost[prev] = nil
notmatchreplace[prev] = nil
local pre, post, replace, pretail, posttail, replacetail = getdisc(prev,true)
if pre ~= start and post ~= start and replace ~= start then
if post then
local n = n
while posttail do
if seq[n][getchar(posttail)] then
n = n - 1
if posttail == post then
break
else
posttail = getprev(posttail)
if n < 1 then
break
end
end
else
notmatchpost[prev] = true
break
end
end
if n >= 1 then
notmatchpost[prev] = true
end
else
notmatchpost[prev] = true
end
if replace then
-- we seldom enter this branch (e.g. on brill efficient)
while replacetail do
if seq[n][getchar(replacetail)] then
n = n - 1
if replacetail == replace then
break
else
replacetail = getprev(replacetail)
if n < 1 then
break
end
end
else
notmatchreplace[prev] = true
match = not notmatchpost[prev]
break
end
end
if not match then
break
end
end
end
-- maybe only if match
prev = getprev(prev)
elseif seq[n][32] and isspace(prev,threshold) then
n = n - 1
prev = getprev(prev)
else
match = false
break
end
else
match = false
break
end
end
else
match = false
end
else
match = false
end
end
-- after
if match and s > l then
local current = last and getnext(last)
if not current then
if sweeptype == "post" or sweeptype == "replace" then
current = getnext(sweepnode)
-- sweeptype = nil
end
end
if current then
local discfound = nil
-- removed optimization for s-l == 1, we have to deal with marks anyway
local n = l + 1
while n <= s do
if current then
local char, id = ischar(current,currentfont)
if char then
local ccd = descriptions[char]
if ccd then
local class = ccd.class
if class == skipmark or class == skipligature or class == skipbase or (markclass and class == "mark" and not markclass[char]) then
skipped = true
if trace_skips then
show_skip(dataset,sequence,char,ck,class)
end
current = getnext(current) -- was absent
elseif seq[n][char] then
if n < s then -- new test
current = getnext(current) -- was absent
end
n = n + 1
else
if discfound then
notmatchreplace[discfound] = true
match = not notmatchpre[discfound]
else
match = false
end
break
end
else
if discfound then
notmatchreplace[discfound] = true
match = not notmatchpre[discfound]
else
match = false
end
break
end
elseif char == false then
if discfound then
notmatchreplace[discfound] = true
match = not notmatchpre[discfound]
else
match = false
end
break
elseif id == disc_code then
diskseen = true
discfound = current
notmatchpre[current] = nil
notmatchpost[current] = true
notmatchreplace[current] = nil
local pre, post, replace = getdisc(current)
if pre then
local n = n
while pre do
if seq[n][getchar(pre)] then
n = n + 1
pre = getnext(pre)
if n > s then
break
end
else
notmatchpre[current] = true
break
end
end
if n <= s then
notmatchpre[current] = true
end
else
notmatchpre[current] = true
end
if replace then
-- so far we never entered this branch
while replace do
if seq[n][getchar(replace)] then
n = n + 1
replace = getnext(replace)
if n > s then
break
end
else
notmatchreplace[current] = true
match = notmatchpre[current]
break
end
end
if not match then
break
end
else
-- skip 'm
end
-- maybe only if match
current = getnext(current)
elseif seq[n][32] and isspace(current,threshold) then
n = n + 1
current = getnext(current)
else
match = false
break
end
else
match = false
break
end
end
else
match = false
end
end
end
if match then
-- Can lookups be of a different type?
local diskchain = diskseen or sweepnode
if trace_contexts then
local rule = ck[1]
local lookuptype = ck[8] or ck[2]
local first = ck[4]
local last = ck[5]
local char = getchar(start)
logwarning("%s: rule %s matches at char %s for (%s,%s,%s) chars, lookuptype %a",
cref(dataset,sequence),rule,gref(char),first-1,last-first+1,s-last,lookuptype)
end
local chainlookups = ck[6]
if chainlookups then
local nofchainlookups = #chainlookups
-- Lookups can be like { 1, false, 3 } or { false, 2 } or basically anything and
-- #lookups can be less than #current
if size == 1 then
-- if nofchainlookups > size then
-- -- bad rules
-- end
local chainlookup = chainlookups[1]
local chainkind = chainlookup.type
local chainproc = chainprocs[chainkind]
if chainproc then
local ok
if diskchain then
head, start, ok = chaindisk(head,start,last,dataset,sequence,chainlookup,rlmode,1,ck,chainproc)
else
head, start, ok = chainproc(head,start,last,dataset,sequence,chainlookup,rlmode,1)
end
if ok then
done = true
end
else
logprocess("%s: %s is not yet supported (1)",cref(dataset,sequence),chainkind)
end
else
-- See LookupType 5: Contextual Substitution Subtable. Now it becomes messy. The
-- easiest case is where #current maps on #lookups i.e. one-to-one. But what if
-- we have a ligature. Cf the spec we then need to advance one character but we
-- really need to test it as there are fonts out there that are fuzzy and have
-- too many lookups:
--
-- U+1105 U+119E U+1105 U+119E : sourcehansansklight: script=hang ccmp=yes
--
local i = 1
while start do
if skipped then
while start do -- todo: use properties
local char = getchar(start)
local ccd = descriptions[char]
if ccd then
local class = ccd.class or "base"
if class == skipmark or class == skipligature or class == skipbase or (markclass and class == "mark" and not markclass[char]) then
start = getnext(start)
else
break
end
else
break
end
end
end
local chainlookup = chainlookups[i]
if chainlookup then
local chainkind = chainlookup.type
local chainproc = chainprocs[chainkind]
if chainproc then
local ok, n
if diskchain then
head, start, ok = chaindisk(head,start,last,dataset,sequence,chainlookup,rlmode,i,ck,chainproc)
else
head, start, ok, n = chainproc(head,start,last,dataset,sequence,chainlookup,rlmode,i)
end
-- messy since last can be changed !
if ok then
done = true
if n and n > 1 and i + n > nofchainlookups then
-- this is a safeguard, we just ignore the rest of the lookups
break
end
end
else
-- actually an error
logprocess("%s: %s is not yet supported (2)",cref(dataset,sequence),chainkind)
end
end
i = i + 1
if i > size or not start then
break
elseif start then
start = getnext(start)
end
end
end
else
-- todo: needs checking for holes in the replacements
local replacements = ck[7]
if replacements then
head, start, done = reversesub(head,start,last,dataset,sequence,replacements,rlmode)
else
done = true
if trace_contexts then
logprocess("%s: skipping match",cref(dataset,sequence))
end
end
end
if done then
break -- out of contexts (new, needs checking)
end
end
end
if diskseen then
notmatchpre = { }
notmatchpost = { }
notmatchreplace = { }
end
return head, start, done
end
handlers.gsub_context = handle_contextchain
handlers.gsub_contextchain = handle_contextchain
handlers.gsub_reversecontextchain = handle_contextchain
handlers.gpos_contextchain = handle_contextchain
handlers.gpos_context = handle_contextchain
-- this needs testing
local function chained_contextchain(head,start,stop,dataset,sequence,currentlookup,rlmode)
local steps = currentlookup.steps
local nofsteps = currentlookup.nofsteps
if nofsteps > 1 then
reportmoresteps(dataset,sequence)
end
return handle_contextchain(head,start,dataset,sequence,currentlookup,rlmode)
end
chainprocs.gsub_context = chained_contextchain
chainprocs.gsub_contextchain = chained_contextchain
chainprocs.gsub_reversecontextchain = chained_contextchain
chainprocs.gpos_contextchain = chained_contextchain
chainprocs.gpos_context = chained_contextchain
local missing = setmetatableindex("table")
local function logprocess(...)
if trace_steps then
registermessage(...)
end
report_process(...)
end
local logwarning = report_process
local function report_missing_coverage(dataset,sequence)
local t = missing[currentfont]
if not t[sequence] then
t[sequence] = true
logwarning("missing coverage for feature %a, lookup %a, type %a, font %a, name %a",
dataset[4],sequence.name,sequence.type,currentfont,tfmdata.properties.fullname)
end
end
local resolved = { } -- we only resolve a font,script,language pair once
-- todo: pass all these 'locals' in a table
local sequencelists = setmetatableindex(function(t,font)
local sequences = fontdata[font].resources.sequences
if not sequences or not next(sequences) then
sequences = false
end
t[font] = sequences
return sequences
end)
-- fonts.hashes.sequences = sequencelists
local autofeatures = fonts.analyzers.features
local featuretypes = otf.tables.featuretypes
local defaultscript = otf.features.checkeddefaultscript
local defaultlanguage = otf.features.checkeddefaultlanguage
local function initialize(sequence,script,language,enabled,autoscript,autolanguage)
local features = sequence.features
if features then
local order = sequence.order
if order then
local featuretype = featuretypes[sequence.type or "unknown"]
for i=1,#order do
local kind = order[i]
local valid = enabled[kind]
if valid then
local scripts = features[kind]
local languages = scripts and (
scripts[script] or
scripts[wildcard] or
(autoscript and defaultscript(featuretype,autoscript,scripts))
)
local enabled = languages and (
languages[language] or
languages[wildcard] or
(autolanguage and defaultlanguage(featuretype,autolanguage,languages))
)
if enabled then
return { valid, autofeatures[kind] or false, sequence, kind }
end
end
end
else
-- can't happen
end
end
return false
end
function otf.dataset(tfmdata,font) -- generic variant, overloaded in context
local shared = tfmdata.shared
local properties = tfmdata.properties
local language = properties.language or "dflt"
local script = properties.script or "dflt"
local enabled = shared.features
local autoscript = enabled and enabled.autoscript
local autolanguage = enabled and enabled.autolanguage
local res = resolved[font]
if not res then
res = { }
resolved[font] = res
end
local rs = res[script]
if not rs then
rs = { }
res[script] = rs
end
local rl = rs[language]
if not rl then
rl = {
-- indexed but we can also add specific data by key
}
rs[language] = rl
local sequences = tfmdata.resources.sequences
if sequences then
for s=1,#sequences do
local v = enabled and initialize(sequences[s],script,language,enabled,autoscript,autolanguage)
if v then
rl[#rl+1] = v
end
end
end
end
return rl
end
local function report_disc(what,n)
report_run("%s: %s > %s",what,n,languages.serializediscretionary(n))
end
local function kernrun(disc,k_run,font,attr,...)
--
-- we catch
--
if trace_kernruns then
report_disc("kern",disc)
end
--
local prev, next = getboth(disc)
--
local nextstart = next
local done = false
--
local pre, post, replace, pretail, posttail, replacetail = getdisc(disc,true)
--
local prevmarks = prev
--
-- can be optional, because why on earth do we get a disc after a mark (okay, maybe when a ccmp
-- has happened but then it should be in the disc so basically this test indicates an error)
--
while prevmarks do
local char = ischar(prevmarks,font)
if char and marks[char] then
prevmarks = getprev(prevmarks)
else
break
end
end
--
if prev and not ischar(prev,font) then -- and (pre or replace)
prev = false
end
if next and not ischar(next,font) then -- and (post or replace)
next = false
end
--
-- we need to get rid of this nest mess some day .. has to be done otherwise
--
if pre then
if k_run(pre,"injections",nil,font,attr,...) then
done = true
end
if prev then
local nest = getprev(pre)
setlink(prev,pre)
if k_run(prevmarks,"preinjections",pre,font,attr,...) then -- or prev?
done = true
end
setprev(pre,nest)
-- setprev(pre)
setnext(prev,disc)
end
end
--
if post then
if k_run(post,"injections",nil,font,attr,...) then
done = true
end
if next then
setlink(posttail,next)
if k_run(posttail,"postinjections",next,font,attr,...) then
done = true
end
setnext(posttail)
setprev(next,disc)
end
end
--
if replace then
if k_run(replace,"injections",nil,font,attr,...) then
done = true
end
if prev then
local nest = getprev(replace)
setlink(prev,replace)
if k_run(prevmarks,"replaceinjections",replace,font,attr,...) then -- getnext(replace))
done = true
end
setprev(replace,nest)
-- setprev(replace)
setnext(prev,disc)
end
if next then
setlink(replacetail,next)
if k_run(replacetail,"replaceinjections",next,font,attr,...) then
done = true
end
setnext(replacetail)
setprev(next,disc)
end
elseif prev and next then
setlink(prev,next)
if k_run(prevmarks,"emptyinjections",next,font,attr,...) then
done = true
end
setlink(prev,disc)
setlink(disc,next)
end
return nextstart, done
end
local function comprun(disc,c_run,...)
if trace_compruns then
report_disc("comp",disc)
end
--
local pre, post, replace = getdisc(disc)
local renewed = false
--
if pre then
sweepnode = disc
sweeptype = "pre" -- in alternative code preinjections is uc_c_sed (also used then for proeprties, saves a variable)
local new, done = c_run(pre,...)
if done then
pre = new
renewed = true
end
end
--
if post then
sweepnode = disc
sweeptype = "post"
local new, done = c_run(post,...)
if done then
post = new
renewed = true
end
end
--
if replace then
sweepnode = disc
sweeptype = "replace"
local new, done = c_run(replace,...)
if done then
replace = new
renewed = true
end
end
--
sweepnode = nil
sweeptype = nil
if renewed then
setdisc(disc,pre,post,replace)
end
--
return getnext(disc), renewed
end
local function testrun(disc,t_run,c_run,...)
if trace_testruns then
report_disc("test",disc)
end
local prev, next = getboth(disc)
if not next then
-- weird discretionary
return
end
local pre, post, replace, pretail, posttail, replacetail = getdisc(disc,true)
local done = false
if replace and prev then
-- this is a bit strange as we only do replace here and not post
-- anyway, we only look ahead ... the idea is that we discard a
-- disc when there is a ligature crossing the replace boundary
setlink(replacetail,next)
local ok, overflow = t_run(replace,next,...)
if ok and overflow then
-- so, we can have crossed the boundary
setfield(disc,"replace")
setlink(prev,replace)
-- setlink(replacetail,next)
setboth(disc)
flush_node_list(disc)
return replace, true -- restart .. tricky !
else
-- we stay inside the disc
setnext(replacetail)
setprev(next,disc)
end
-- pre, post, replace, pretail, posttail, replacetail = getdisc(disc,true)
end
--
-- like comprun
--
local renewed = false
--
if pre then
sweepnode = disc
sweeptype = "pre"
local new, ok = c_run(pre,...)
if ok then
pre = new
renewed = true
end
end
--
if post then
sweepnode = disc
sweeptype = "post"
local new, ok = c_run(post,...)
if ok then
post = new
renewed = true
end
end
--
if replace then
sweepnode = disc
sweeptype = "replace"
local new, ok = c_run(replace,...)
if ok then
replace = new
renewed = true
end
end
--
sweepnode = nil
sweeptype = nil
if renewed then
setdisc(disc,pre,post,replace)
return next, true
else
return next, done
end
end
-- A discrun happens when we have a zwnj. We're gpossing so it is unlikely that
-- there has been a match changing the character. Now, as we check again here
-- the question is: why do we do this ... needs checking as drun seems useless
-- ... maybe that code can go away
-- local function discrun(disc,drun,krun)
-- local prev, next = getboth(disc)
-- if trace_discruns then
-- report_disc("disc",disc)
-- end
-- if next and prev then
-- setnext(prev,next)
-- -- setprev(next,prev)
-- drun(prev)
-- setnext(prev,disc)
-- -- setprev(next,disc)
-- end
-- --
-- if krun then -- currently always false
-- local pre = getfield(disc,"pre")
-- if not pre then
-- -- go on
-- elseif prev then
-- local nest = getprev(pre)
-- setlink(prev,pre)
-- krun(prev,"preinjections")
-- setprev(pre,nest)
-- setnext(prev,disc)
-- else
-- krun(pre,"preinjections")
-- end
-- end
-- return next
-- end
-- We can make some assumptions with respect to discretionaries. First of all it is very
-- unlikely that some of the analysis related attributes applies. Then we can also assume
-- that the ConTeXt specific dynamic attribute is different, although we do use explicit
-- discretionaries (maybe we need to tag those some day). So, at least for now, we don't
-- have the following test in the sub runs:
--
-- -- local a = getattr(start,0)
-- -- if a then
-- -- a = (a == attr) and (not attribute or getprop(start,a_state) == attribute)
-- -- else
-- -- a = not attribute or getprop(start,a_state) == attribute
-- -- end
-- -- if a then
--
-- but use this instead:
--
-- -- local a = getattr(start,0)
-- -- if not a or (a == attr) then
--
-- and even that one is probably not needed. However, we can handle interesting
-- cases now:
--
-- 1{2{\oldstyle\discretionary{3}{4}{5}}6}7\par
-- 1{2\discretionary{3{\oldstyle3}}{{\oldstyle4}4}{5{\oldstyle5}5}6}7\par
local nesting = 0
local function c_run_single(head,font,attr,lookupcache,step,dataset,sequence,rlmode,handler)
local done = false
local sweep = sweephead[head]
if sweep then
start = sweep
sweephead[head] = nil
else
start = head
end
while start do
local char = ischar(start,font)
if char then
local a = attr and getattr(start,0)
if not a or (a == attr) then
local lookupmatch = lookupcache[char]
if lookupmatch then
local ok
head, start, ok = handler(head,start,dataset,sequence,lookupmatch,rlmode,step,1)
if ok then
done = true
end
end
if start then
start = getnext(start)
end
else
-- go on can be a mixed one
start = getnext(start)
end
elseif char == false then
return head, done
elseif sweep then
-- else we loose the rest
return head, done
else
-- in disc component
start = getnext(start)
end
end
return head, done
end
local function t_run_single(start,stop,font,attr,lookupcache)
while start ~= stop do
local char = ischar(start,font)
if char then
local a = attr and getattr(start,0)
if not a or (a == attr) then
local lookupmatch = lookupcache[char]
if lookupmatch then -- hm, hyphens can match (tlig) so we need to really check
-- if we need more than ligatures we can outline the code and use functions
local s = getnext(start)
local l = nil
local d = 0
while s do
if s == stop then
d = 1
elseif d > 0 then
d = d + 1
end
local lg = lookupmatch[getchar(s)]
if lg then
l = lg
s = getnext(s)
else
break
end
end
if l and l.ligature then
return true, d > 1
end
end
else
-- go on can be a mixed one
end
start = getnext(start)
else
break
end
end
end
-- local function d_run_single(prev,font,attr,lookupcache,step,dataset,sequence,rlmode,handler)
-- local a = attr and getattr(prev,0)
-- if not a or (a == attr) then
-- local char = ischar(prev) -- can be disc
-- if char then
-- local lookupmatch = lookupcache[char]
-- if lookupmatch then
-- local h, d, ok = handler(head,start,dataset,sequence,lookupmatch,rlmode,step,1)
-- if ok then
-- done = true
-- success = true
-- end
-- end
-- end
-- end
-- end
local function k_run_single(sub,injection,last,font,attr,lookupcache,step,dataset,sequence,rlmode,handler)
local a = attr and getattr(sub,0)
if not a or (a == attr) then
for n in traverse_nodes(sub) do -- only gpos
if n == last then
break
end
local char = ischar(n)
if char then
local lookupmatch = lookupcache[char]
if lookupmatch then
local h, d, ok = handler(sub,n,dataset,sequence,lookupmatch,rlmode,step,1,injection)
if ok then
return true
end
end
end
end
end
end
local function c_run_multiple(head,font,attr,steps,nofsteps,dataset,sequence,rlmode,handler)
local done = false
local sweep = sweephead[head]
if sweep then
start = sweep
sweephead[head] = nil
else
start = head
end
while start do
local char = ischar(start,font)
if char then
local a = attr and getattr(start,0)
if not a or (a == attr) then
for i=1,nofsteps do
local step = steps[i]
local lookupcache = step.coverage
if lookupcache then
local lookupmatch = lookupcache[char]
if lookupmatch then
-- we could move all code inline but that makes things even more unreadable
local ok
head, start, ok = handler(head,start,dataset,sequence,lookupmatch,rlmode,step,i)
if ok then
done = true
break
elseif not start then
-- don't ask why ... shouldn't happen
break
end
end
else
report_missing_coverage(dataset,sequence)
end
end
if start then
start = getnext(start)
end
else
-- go on can be a mixed one
start = getnext(start)
end
elseif char == false then
-- whatever glyph
return head, done
elseif sweep then
-- else we loose the rest
return head, done
else
-- in disc component
start = getnext(start)
end
end
return head, done
end
local function t_run_multiple(start,stop,font,attr,steps,nofsteps)
while start ~= stop do
local char = ischar(start,font)
if char then
local a = attr and getattr(start,0)
if not a or (a == attr) then
for i=1,nofsteps do
local step = steps[i]
local lookupcache = step.coverage
if lookupcache then
local lookupmatch = lookupcache[char]
if lookupmatch then
-- if we need more than ligatures we can outline the code and use functions
local s = getnext(start)
local l = nil
local d = 0
while s do
if s == stop then
d = 1
elseif d > 0 then
d = d + 1
end
local lg = lookupmatch[getchar(s)]
if lg then
l = lg
s = getnext(s)
else
break
end
end
if l and l.ligature then
return true, d > 1
end
end
else
report_missing_coverage(dataset,sequence)
end
end
else
-- go on can be a mixed one
end
start = getnext(start)
else
break
end
end
end
-- local function d_run_multiple(prev,attr,steps,nofsteps,dataset,sequence,rlmode,handler)
-- local a = attr and getattr(prev,0)
-- if not a or (a == attr) then
-- local char = ischar(prev) -- can be disc
-- if char then
-- for i=1,nofsteps do
-- local step = steps[i]
-- local lookupcache = step.coverage
-- if lookupcache then
-- local lookupmatch = lookupcache[char]
-- if lookupmatch then
-- -- we could move all code inline but that makes things even more unreadable
-- local h, d, ok = handler(head,prev,dataset,sequence,lookupmatch,rlmode,step,i)
-- if ok then
-- done = true
-- break
-- end
-- end
-- else
-- report_missing_coverage(dataset,sequence)
-- end
-- end
-- end
-- end
-- end
local function k_run_multiple(sub,injection,last,font,attr,steps,nofsteps,dataset,sequence,rlmode,handler)
local a = attr and getattr(sub,0)
if not a or (a == attr) then
for n in traverse_nodes(sub) do -- only gpos
if n == last then
break
end
local char = ischar(n)
if char then
for i=1,nofsteps do
local step = steps[i]
local lookupcache = step.coverage
if lookupcache then
local lookupmatch = lookupcache[char]
if lookupmatch then
local h, d, ok = handler(head,n,dataset,sequence,lookupmatch,step,rlmode,i,injection)
if ok then
return true
end
end
else
report_missing_coverage(dataset,sequence)
end
end
end
end
end
end
-- to be checked, nowadays we probably can assume properly matched directions
-- so maybe we no longer need a stack
local function txtdirstate(start,stack,top,rlparmode)
local dir = getfield(start,"dir")
local new = 1
if dir == "+TRT" then
top = top + 1
stack[top] = dir
new = -1
elseif dir == "+TLT" then
top = top + 1
stack[top] = dir
elseif dir == "-TRT" or dir == "-TLT" then
top = top - 1
if stack[top] == "+TRT" then
new = -1
end
else
new = rlparmode
end
if trace_directions then
report_process("directions after txtdir %a: parmode %a, txtmode %a, level %a",dir,mref(rlparmode),mref(new),top)
end
return getnext(start), top, new
end
local function pardirstate(start)
local dir = getfield(start,"dir")
local new = 0
if dir == "TLT" then
new = 1
elseif dir == "TRT" then
new = -1
end
if trace_directions then
report_process("directions after pardir %a: parmode %a",dir,mref(new))
end
return getnext(start), new, new
end
otf.helpers = otf.helpers or { }
otf.helpers.txtdirstate = txtdirstate
otf.helpers.pardirstate = pardirstate
local function featuresprocessor(head,font,attr)
local sequences = sequencelists[font] -- temp hack
if not sequencelists then
return head, false
end
nesting = nesting + 1
if nesting == 1 then
currentfont = font
tfmdata = fontdata[font]
descriptions = tfmdata.descriptions
characters = tfmdata.characters
marks = tfmdata.resources.marks
threshold,
factor = getthreshold(font)
checkmarks = tfmdata.properties.checkmarks
elseif currentfont ~= font then
report_warning("nested call with a different font, level %s, quitting",nesting)
nesting = nesting - 1
return head, false
end
-- some 10% faster when no dynamics but hardly measureable on real runs .. but: it only
-- works when we have no other dynamics as otherwise the zero run will be applied to the
-- whole stream for which we then need to pass another variable which we won't
-- if attr == 0 then
-- attr = false
-- end
head = tonut(head)
if trace_steps then
checkstep(head)
end
local rlmode = 0
local done = false
local datasets = otf.dataset(tfmdata,font,attr)
local forcedisc = alwaysdisc or not attr
local dirstack = { } -- could move outside function but we can have local runs
sweephead = { }
-- We could work on sub start-stop ranges instead but I wonder if there is that
-- much speed gain (experiments showed that it made not much sense) and we need
-- to keep track of directions anyway. Also at some point I want to play with
-- font interactions and then we do need the full sweeps.
-- Keeping track of the headnode is needed for devanagari (I generalized it a bit
-- so that multiple cases are also covered.)
-- We don't goto the next node when a disc node is created so that we can then treat
-- the pre, post and replace. It's a bit of a hack but works out ok for most cases.
for s=1,#datasets do
local dataset = datasets[s]
----- featurevalue = dataset[1] -- todo: pass to function instead of using a global
local attribute = dataset[2]
local sequence = dataset[3] -- sequences[s] -- also dataset[5]
local rlparmode = 0
local topstack = 0
local success = false
local typ = sequence.type
local gpossing = typ == "gpos_single" or typ == "gpos_pair" -- store in dataset
local handler = handlers[typ]
local steps = sequence.steps
local nofsteps = sequence.nofsteps
if not steps then
-- this permits injection, watch the different arguments
local h, d, ok = handler(head,head,dataset,sequence,nil,nil,nil,0,font,attr)
if ok then
success = true
if h then
head = h
end
end
elseif typ == "gsub_reversecontextchain" then
-- this is a limited case, no special treatments like 'init' etc
local start = find_node_tail(head)
while start do
local char = ischar(start,font)
if char then
local a = attr and getattr(start,0)
if not a or (a == attr) then
for i=1,nofsteps do
local step = steps[i]
local lookupcache = step.coverage
if lookupcache then
local lookupmatch = lookupcache[char]
if lookupmatch then
-- todo: disc?
local ok
head, start, ok = handler(head,start,dataset,sequence,lookupmatch,rlmode,step,i)
if ok then
success = true
break
end
end
else
report_missing_coverage(dataset,sequence)
end
end
if start then
start = getprev(start)
end
else
start = getprev(start)
end
else
start = getprev(start)
end
end
else
local start = head -- local ?
rlmode = 0 -- to be checked ?
if nofsteps == 1 then -- happens often
local step = steps[1]
local lookupcache = step.coverage
if not lookupcache then
report_missing_coverage(dataset,sequence)
else
while start do
local char, id = ischar(start,font)
if char then
local a = attr and getattr(start,0)
if a then
a = (a == attr) and (not attribute or getprop(start,a_state) == attribute)
else
a = not attribute or getprop(start,a_state) == attribute
end
if a then
local lookupmatch = lookupcache[char]
if lookupmatch then
local ok
head, start, ok = handler(head,start,dataset,sequence,lookupmatch,rlmode,step,1)
if ok then
success = true
-- elseif gpossing and zwnjruns and char == zwnj then
-- discrun(start,d_run,font,attr,lookupcache)
end
-- elseif gpossing and zwnjruns and char == zwnj then
-- discrun(start,d_run,font,attr,lookupcache)
end
if start then
start = getnext(start)
end
else
start = getnext(start)
end
elseif char == false then
-- whatever glyph
start = getnext(start)
elseif id == disc_code then
-- ctx: we could assume the same attr as the surrounding glyphs but then we loose
-- the option to have interesting disc nodes (we gain upto 10% on extreme tests);
-- if a disc would have a font field we could even be more strict (see oldstyle test
-- case)
local a = forcedisc or getsubtype(start) == discretionary_code or getattr(start,0) == attr
if a then
-- local attr = false
local ok
if gpossing then
start, ok = kernrun(start,k_run_single, font,attr,lookupcache,step,dataset,sequence,rlmode,handler)
elseif typ == "gsub_ligature" then
start, ok = testrun(start,t_run_single,c_run_single,font,attr,lookupcache,step,dataset,sequence,rlmode,handler)
else
start, ok = comprun(start,c_run_single, font,attr,lookupcache,step,dataset,sequence,rlmode,handler)
end
if ok then
success = true
end
else
start = getnext(start)
end
elseif id == math_code then
start = getnext(end_of_math(start))
elseif id == dir_code then
start, topstack, rlmode = txtdirstate(start,dirstack,topstack,rlparmode)
elseif id == localpar_code then
start, rlparmode, rlmode = pardirstate(start)
else
start = getnext(start)
end
end
end
else
while start do
local char, id = ischar(start,font)
if char then
local a = attr and getattr(start,0)
if a then
a = (a == attr) and (not attribute or getprop(start,a_state) == attribute)
else
a = not attribute or getprop(start,a_state) == attribute
end
if a then
for i=1,nofsteps do
local step = steps[i]
local lookupcache = step.coverage
if lookupcache then
local lookupmatch = lookupcache[char]
if lookupmatch then
-- we could move all code inline but that makes things even more unreadable
local ok
head, start, ok = handler(head,start,dataset,sequence,lookupmatch,rlmode,step,i)
if ok then
success = true
break
elseif not start then
-- don't ask why ... shouldn't happen
break
-- elseif gpossing and zwnjruns and char == zwnj then
-- discrun(start,d_run,font,attr,steps,nofsteps)
end
-- elseif gpossing and zwnjruns and char == zwnj then
-- discrun(start,d_run,font,attr,steps,nofsteps)
end
else
report_missing_coverage(dataset,sequence)
end
end
if start then
start = getnext(start)
end
else
start = getnext(start)
end
elseif char == false then
start = getnext(start)
elseif id == disc_code then
-- see comment above
local a = forcedisc or getsubtype(start) == discretionary_code or getattr(start,0) == attr
if a then
local ok
if gpossing then
start, ok = kernrun(start,k_run_multiple, font,attr,steps,nofsteps,dataset,sequence,rlmode,handler)
elseif typ == "gsub_ligature" then
start, ok = testrun(start,t_run_multiple,c_run_multiple,font,attr,steps,nofsteps,dataset,sequence,rlmode,handler)
else
start, ok = comprun(start,c_run_multiple, font,attr,steps,nofsteps,dataset,sequence,rlmode,handler)
end
if ok then
success = true
end
else
start = getnext(start)
end
elseif id == math_code then
start = getnext(end_of_math(start))
elseif id == dir_code then
start, topstack, rlmode = txtdirstate(start,dirstack,topstack,rlparmode)
elseif id == localpar_code then
start, rlparmode, rlmode = pardirstate(start)
else
start = getnext(start)
end
end
end
end
if success then
done = true
end
if trace_steps then -- ?
registerstep(head)
end
end
nesting = nesting - 1
head = tonode(head)
return head, done
end
-- so far
local plugins = { }
otf.plugins = plugins
function otf.registerplugin(name,f)
if type(name) == "string" and type(f) == "function" then
plugins[name] = { name, f }
end
end
local function plugininitializer(tfmdata,value)
if type(value) == "string" then
tfmdata.shared.plugin = plugins[value]
end
end
local function pluginprocessor(head,font)
local s = fontdata[font].shared
local p = s and s.plugin
if p then
if trace_plugins then
report_process("applying plugin %a",p[1])
end
return p[2](head,font)
else
return head, false
end
end
local function featuresinitializer(tfmdata,value)
-- nothing done here any more
end
registerotffeature {
name = "features",
description = "features",
default = true,
initializers = {
position = 1,
node = featuresinitializer,
plug = plugininitializer,
},
processors = {
node = featuresprocessor,
plug = pluginprocessor,
}
}
otf.nodemodeinitializer = featuresinitializer
otf.featuresprocessor = featuresprocessor
-- This can be used for extra handlers, but should be used with care!
otf.handlers = handlers -- used in devanagari
-- We implement one here:
local setspacekerns = nodes.injections.setspacekerns if not setspacekerns then os.exit() end
if fontfeatures then
function otf.handlers.trigger_space_kerns(head,start,dataset,sequence,_,_,_,_,font,attr)
local features = fontfeatures[font]
local enabled = features and features.spacekern and features.kern
if enabled then
setspacekerns(font,sequence)
end
return head, start, enabled
end
else -- generic (no hashes)
function otf.handlers.trigger_space_kerns(head,start,dataset,sequence,_,_,_,_,font,attr)
local shared = fontdata[font].shared
local features = shared and shared.features
local enabled = features and features.spacekern and features.kern
if enabled then
setspacekerns(font,sequence)
end
return head, start, enabled
end
end
local function hasspacekerns(data)
local sequences = data.resources.sequences
for i=1,#sequences do
local sequence = sequences[i]
local steps = sequence.steps
if steps and sequence.features.kern then
for i=1,#steps do
local coverage = steps[i].coverage
if not coverage then
-- maybe an issue
elseif coverage[32] then
return true
else
for k, v in next, coverage do
if v[32] then
return true
end
end
end
end
end
end
return false
end
otf.readers.registerextender {
name = "spacekerns",
action = function(data)
data.properties.hasspacekerns = hasspacekerns(data)
end
}
-- we merge the lookups but we still honor the language / script
local function spaceinitializer(tfmdata,value) -- attr
local resources = tfmdata.resources
local spacekerns = resources and resources.spacekerns
local properties = tfmdata.properties
if value and spacekerns == nil then
if properties and properties.hasspacekerns then
local sequences = resources.sequences
local left = { }
local right = { }
local last = 0
local feat = nil
for i=1,#sequences do
local sequence = sequences[i]
local steps = sequence.steps
if steps then
local kern = sequence.features.kern
if kern then
if feat then
for script, languages in next, kern do
local f = feat[script]
if f then
for l in next, languages do
f[l] = true
end
else
feat[script] = languages
end
end
else
feat = kern
end
for i=1,#steps do
local step = steps[i]
local coverage = step.coverage
local rules = step.rules
local format = step.format
if rules then
-- not now: analyze (simple) rules
elseif coverage then
-- what to do if we have no [1] but only [2]
local single = format == gpos_single
local kerns = coverage[32]
if kerns then
for k, v in next, kerns do
if type(v) ~= "table" then
right[k] = v
elseif single then
right[k] = v[3]
else
local one = v[1]
if one then
right[k] = one[3]
end
end
end
end
for k, v in next, coverage do
local kern = v[32]
if kern then
if type(kern) ~= "table" then
left[k] = kern
elseif single then
left[k] = v[3]
else
local one = v[1]
if one then
left[k] = one[3]
end
end
end
end
end
end
last = i
end
else
-- no steps ... needed for old one ... we could use the basekerns
-- instead
end
end
left = next(left) and left or false
right = next(right) and right or false
if left or right then
spacekerns = {
left = left,
right = right,
}
if last > 0 then
local triggersequence = {
features = { kern = feat or { dflt = { dflt = true, } } },
flags = noflags,
name = "trigger_space_kerns",
order = { "kern" },
type = "trigger_space_kerns",
left = left,
right = right,
}
insert(sequences,last,triggersequence)
end
else
spacekerns = false
end
else
spacekerns = false
end
resources.spacekerns = spacekerns
end
return spacekerns
end
registerotffeature {
name = "spacekern",
description = "space kern injection",
default = true,
initializers = {
node = spaceinitializer,
},
}
local function markinitializer(tfmdata,value)
local properties = tfmdata.properties
properties.checkmarks = value
end
registerotffeature {
name = "checkmarks",
description = "check mark widths",
default = true,
initializers = {
node = markinitializer,
},
}