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", } --[[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 (or at least a decade ago was) 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. In the end we rely most on the Microsoft specification.

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. We don't want to catch all font issues.

After a lot of experiments (mostly by Taco, me and Idris) the first implementation becaus quite useful. When it did most of what we wanted, a more optimized version evolved. 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 quite acceptable and has been improved over time. Many complex scripts are not yet supported yet, 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.

Especially discretionary handling has been improved much by Kai Eigner who uses complex (latin) fonts. The current implementation is a compromis between his patches and my code and in the meantime performance is quite ok. We cannot check all border cases without compromising speed but so far we're okay. Given good test cases we can probably improve it here and there. Especially chain lookups are non trivial with discretionaries but things got much better over time thanks to Kai.

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).

This module is sparsely documented because it is has been a moving target. The table format of the reader changed a bit over time and we experiment a lot with different methods for supporting features. By now the structures are quite stable

Incrementing the version number will force a re-cache. We jump the number by one when there's a fix in the reader or processing code that can result in different results.

This code is also used outside context but in context it has to work with other mechanisms. Both put some constraints on the code here.

--ldx]]-- -- Remark: We assume that cursives don't cross discretionaries which is okay because it -- is only used in semitic scripts. -- -- Remark: We assume that marks precede base characters. -- -- Remark: When complex ligatures extend into discs nodes we can get side effects. Normally -- this doesn't happen; ff\d{l}{l}{l} in lm works but ff\d{f}{f}{f}. -- -- Todo: check if we copy attributes to disc nodes if needed. -- -- Todo: it would be nice if we could get rid of components. In other places we can use -- the unicode properties. We can just keep a lua table. -- -- Remark: 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. -- -- Remark: This is not possible: -- -- \discretionary {alpha-} {betagammadelta} -- {\discretionary {alphabeta-} {gammadelta} -- {\discretionary {alphabetagamma-} {delta} -- {alphabetagammadelta}}} -- -- Remark: 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. -- -- Remark: I wonder if indexed would be faster than unicoded. It would be a major -- rewrite to have char being unicode + an index field in glyph nodes. Also more -- assignments have to be made in order to keep things in sync. So, it's a no-go. -- -- Remark: We can provide a fast loop when there are no disc nodes (tests show a 1% -- gain). Smaller functions might perform better cache-wise. But ... memory becomes -- faster anyway, so ... -- -- Remark: Some optimizations made sense for 5.2 but seem less important for 5.3 but -- anyway served their purpose. -- -- Todo: just (0=l2r and 1=r2l) or maybe (r2l = true) local type, next, tonumber = type, next, tonumber local random = math.random local formatters = string.formatters local insert = table.insert local registertracker = trackers.register local logs = logs local trackers = trackers local nodes = nodes local attributes = attributes local fonts = fonts local otf = fonts.handlers.otf local tracers = nodes.tracers 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) 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_plugins = false registertracker("otf.plugins", function(v) trace_plugins = v end) local trace_chains = false registertracker("otf.chains", function(v) trace_chains = v end) local trace_kernruns = false registertracker("otf.kernruns", function(v) trace_kernruns = v end) ----- 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) local forcediscretionaries = false local forcepairadvance = false -- for testing directives.register("otf.forcediscretionaries",function(v) forcediscretionaries = v end) directives.register("otf.forcepairadvance",function(v) forcepairadvance = 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.substitutions", "otf.singles","otf.multiples","otf.alternatives","otf.ligatures") registertracker("otf.positions", "otf.marks","otf.kerns","otf.cursive") registertracker("otf.actions", "otf.substitutions","otf.positions") registertracker("otf.sample", "otf.steps","otf.substitutions","otf.positions","otf.analyzing") registertracker("otf.sample.silent", "otf.steps=silent","otf.substitutions","otf.positions","otf.analyzing") local nuts = nodes.nuts local getfield = nuts.getfield 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 getprop = nuts.getprop local setprop = nuts.setprop 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 getcomponents = nuts.getcomponents -- the original one, not yet node-aux local setcomponents = nuts.setcomponents -- the original one, not yet node-aux local getwidth = nuts.getwidth local getattr = nuts.getattr local getglyphdata = nuts.getglyphdata local ischar = nuts.ischar local isglyph = nuts.isglyph local usesfont = nuts.uses_font local insert_node_after = nuts.insert_after local copy_node = nuts.copy local copy_node_list = nuts.copy_list local remove_node = nuts.remove 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 setmetatable = setmetatable local setmetatableindex = table.setmetatableindex local nextnode = nuts.traversers.node ----- zwnj = 0x200C ----- zwj = 0x200D 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 discretionarydisc_code = disccodes.discretionary local ligatureglyph_code = glyphcodes.ligature local a_state = attributes.private('state') local a_noligature = attributes.private("noligature") local injections = nodes.injections local setmark = injections.setmark local setcursive = injections.setcursive local setkern = injections.setkern local setmove = injections.setmove local setposition = injections.setposition local resetinjection = injections.reset local copyinjection = injections.copy local setligaindex = injections.setligaindex local getligaindex = injections.getligaindex local fontdata = fonts.hashes.identifiers local fontfeatures = fonts.hashes.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 semi-global variables. The handler can be called nested but this assumes -- that the same font is used. local tfmdata = false local characters = false local descriptions = false local marks = false local classes = false local currentfont = false local factor = 0 local threshold = 0 local checkmarks = false local discs = false local spaces = false local sweepnode = nil local sweephead = { } -- we don't nil entries but false them (no collection and such) local notmatchpre = { } -- to be checked: can we use false instead of nil / what if a == b tests local notmatchpost = { } -- to be checked: can we use false instead of nil / what if a == b tests local notmatchreplace = { } -- to be checked: can we use false instead of nil / what if a == b tests local handlers = { } local isspace = injections.isspace local getthreshold = injections.getthreshold local checkstep = (tracers and tracers.steppers.check) or function() end local registerstep = (tracers and tracers.steppers.register) or function() end local registermessage = (tracers and 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 report("pre: %s",nodes.idstostring(pre)) break end end -- if post then for n in traverse_id(glue_code,post) do report("pos: %s",nodes.idstostring(post)) break end end -- if replace then for n in traverse_id(glue_code,replace) do report("rep: %s",nodes.idstostring(replace)) break end end -- end local function logprocess(...) if trace_steps then registermessage(...) if trace_steps == "silent" then return end end report_direct(...) end local function logwarning(...) report_direct(...) end local gref do local f_unicode = formatters["U+%X"] -- was ["%U"] local f_uniname = formatters["U+%X (%s)"] -- was ["%U (%s)"] local f_unilist = formatters["% t"] gref = function(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 t = { } for i=1,#n do local ni = n[i] if tonumber(ni) then -- later we will start at 2 local di = descriptions[ni] local nn = di and di.name if nn then t[#t+1] = f_uniname(ni,nn) else t[#t+1] = f_unicode(ni) end end end return f_unilist(t) else return "" end end end local function cref(dataset,sequence,index) if not dataset then return "no valid dataset" end local merged = sequence.merged and "merged " or "" if index then return formatters["feature %a, type %a, %schain lookup %a, index %a"]( dataset[4],sequence.type,merged,sequence.name,index) else return formatters["feature %a, type %a, %schain lookup %a"]( dataset[4],sequence.type,merged,sequence.name) end end local function pref(dataset,sequence) return formatters["feature %a, type %a, %slookup %a"]( dataset[4],sequence.type,sequence.merged and "merged " or "",sequence.name) end local function mref(rlmode) if not rlmode or rlmode >= 0 then return "l2r" else return "r2l" 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. -- 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 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 = posthead end if replace then setlink(replacetail,replacehead) else replace = replacehead end setdisc(disc,pre,post,replace) end -- start is a mark and we need to keep that one local copy_no_components = nuts.copy_no_components local copy_only_glyphs = nuts.copy_only_glyphs local set_components = setcomponents local take_components = getcomponents local function count_components(start,marks) local char = isglyph(start) if char then if getsubtype(start) == ligatureglyph_code then local i = 0 local components = getcomponents(start) while components do i = i + count_components(components,marks) components = getnext(components) end return i elseif not marks[char] then return 1 end end return 0 end 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_no_components(start,copyinjection) if head == start then head = base end resetinjection(base) setchar(base,char) setsubtype(base,ligatureglyph_code) set_components(base,start) setlink(prev,base,next) return head, base end end -- Remark for Kai: (some arabic fonts do mark + mark = other mark and such) -- -- The hasmarks is needed for ligatures of marks that are part of a ligature in -- which case we assume that we can delete the marks anyway (we can always become -- more clever if needed) .. in fact the whole logic here should be redone. We're -- in the not discfound branch then. We now have skiphash too so we can be more -- selective if needed (todo). local function toligature(head,start,stop,char,dataset,sequence,skiphash,discfound,hasmarks) -- 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 local prev = getprev(start) local next = getnext(stop) local comp = start setprev(start) setnext(stop) local base = copy_no_components(start,copyinjection) if start == head then head = base end resetinjection(base) setchar(base,char) setsubtype(base,ligatureglyph_code) set_components(base,comp) setlink(prev,base,next) if not discfound then local deletemarks = not skiphash or hasmarks 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 = count_components(start,marks) -- we can be more clever here: "not deletemarks or (skiphash and not skiphash[char])" -- and such: elseif not deletemarks then -- we can get a loop when the font expects otherwise (i.e. unexpected deletemarks) 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) -- is this ok ? we position later anyway 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 = getnext(current) while start do local char = ischar(start) if char then -- also something skiphash here? 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 local prev = getprev(base) local comp = take_components(base) local copied = copy_only_glyphs(comp) if pre then setlink(discprev,pre) else setnext(discprev) -- also blocks funny assignments end pre = comp if post then setlink(posttail,discnext) setprev(post) else post = discnext setprev(discnext) -- also blocks funny assignments end setlink(prev,discfound,next) setboth(base) -- here components have a pointer so we can't free it! set_components(base,copied) replace = base if forcediscretionaries then setdisc(discfound,pre,post,replace,discretionarydisc_code) else setdisc(discfound,pre,post,replace) end base = prev end end end return head, base end local function multiple_glyphs(head,start,multiple,skiphash,what,stop) -- what to do with skiphash matches here 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 n == 1 then -- we could actually change that into a gsub and save some memory in the -- font loader but it makes tracing more messy return alternatives[1], trace_alternatives and "1 (only one present)" elseif 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,rlmode,skiphash) 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,skiphash,dataset[1]) end -- Don't we deal with disc otherwise now? I need to check if the next one can be -- simplified. Anyway, it can be way messier: marks that get removed as well as -- marks that are kept. function handlers.gsub_ligature(head,start,dataset,sequence,ligature,rlmode,skiphash) local current = getnext(start) if not current then return head, start, false, nil end local stop = nil local startchar = getchar(start) if skiphash and skiphash[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 discfound = false local hasmarks = marks[startchar] while current do local char, id = ischar(current,currentfont) if char then if skiphash and skiphash[char] then current = getnext(current) else local lg = ligature[char] if lg then if marks[char] then hasmarks = true 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 discfound = current break else break end end -- 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 if discfound then -- don't assume marks in a disc and we don't run over a disc (for now) local pre, post, replace = getdisc(discfound) local match if replace then local char = ischar(replace,currentfont) if char and ligature[char] then match = true end end if not match and pre then local char = ischar(pre,currentfont) if char and ligature[char] then match = true end end if not match and not pre or not replace then local n = getnext(discfound) local char = ischar(n,currentfont) if char and ligature[char] then match = true end end if match then -- we force a restart local ishead = head == start local prev = getprev(start) if stop then setnext(stop) local copy = copy_node_list(start) local tail = stop -- was: getprev(stop) -- Kai: needs checking on your samples local liat = find_node_tail(copy) if pre then setlink(liat,pre) end if replace then setlink(tail,replace) end pre = copy replace = start else setnext(start) local copy = copy_node(start) if pre then setlink(copy,pre) end if replace then setlink(start,replace) end pre = copy replace = start end setdisc(discfound,pre,post,replace) if prev then setlink(prev,discfound) else setprev(discfound) head = discfound end start = discfound return head, start, true, true 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,skiphash,discfound,hasmarks) head, start = toligature(head,start,stop,lig,dataset,sequence,skiphash,false,hasmarks) 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,skiphash,discfound,hasmarks) head, start = toligature(head,start,stop,lig,dataset,sequence,skiphash,false,hasmarks) 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, false else -- weird but happens, pseudo ligatures ... just the components end end return head, start, false, false end function handlers.gpos_single(head,start,dataset,sequence,kerns,rlmode,skiphash,step,injection) local startchar = getchar(start) local format = step.format if format == "single" or type(kerns) == "table" then -- the table check can go local dx, dy, w, h = setposition(0,start,factor,rlmode,kerns,injection) if trace_kerns then logprocess("%s: shifting single %s by %s xy (%p,%p) and wh (%p,%p)",pref(dataset,sequence),gref(startchar),format,dx,dy,w,h) end else local k = (format == "move" and setmove or setkern)(start,factor,rlmode,kerns,injection) if trace_kerns then logprocess("%s: shifting single %s by %s %p",pref(dataset,sequence),gref(startchar),format,k) end end return head, start, true end function handlers.gpos_pair(head,start,dataset,sequence,kerns,rlmode,skiphash,step,injection) local snext = getnext(start) if not snext then return head, start, false else local prev = start while snext do local nextchar = ischar(snext,currentfont) if nextchar then if skiphash and skiphash[nextchar] then -- includes marks too when flag prev = snext snext = getnext(snext) else local krn = kerns[nextchar] if not krn then break end local format = step.format if format == "pair" then local a = krn[1] local b = krn[2] if a == true then -- zero elseif a then -- #a > 0 local x, y, w, h = setposition(1,start,factor,rlmode,a,injection) if trace_kerns then local startchar = getchar(start) logprocess("%s: shifting first of pair %s and %s by xy (%p,%p) and wh (%p,%p) as %s",pref(dataset,sequence),gref(startchar),gref(nextchar),x,y,w,h,injection or "injections") end end if b == true then -- zero start = snext -- cf spec elseif b then -- #b > 0 local x, y, w, h = setposition(2,snext,factor,rlmode,b,injection) if trace_kerns then local startchar = getchar(start) logprocess("%s: shifting second of pair %s and %s by xy (%p,%p) and wh (%p,%p) as %s",pref(dataset,sequence),gref(startchar),gref(nextchar),x,y,w,h,injection or "injections") end start = snext -- cf spec elseif forcepairadvance then start = snext -- for testing, not cf spec end return head, start, true elseif krn ~= 0 then local k = (format == "move" and setmove or setkern)(snext,factor,rlmode,krn,injection) if trace_kerns then logprocess("%s: inserting %s %p between %s and %s as %s",pref(dataset,sequence),format,k,gref(getchar(prev)),gref(nextchar),injection or "injections") end return head, start, true else -- can't happen break end end else break end end return head, start, false 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,skiphash) 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, bound %s, anchoring mark %s to basechar %s => (%p,%p)", pref(dataset,sequence),bound,gref(markchar),gref(basechar),dx,dy) end return head, start, true elseif trace_bugs then -- onetimemessage(currentfont,basechar,"no base anchors",report_fonts) logwarning("%s: mark %s is not anchored to %s",pref(dataset,sequence),gref(markchar),gref(basechar)) 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,skiphash) 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, index %s, bound %s, anchoring mark %s to baselig %s at index %s => (%p,%p)", pref(dataset,sequence),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,skiphash) 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, bound %s, anchoring mark %s to basemark %s => (%p,%p)", pref(dataset,sequence),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,skiphash,step) -- to be checked 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 nxt do local nextchar = ischar(nxt,currentfont) if not nextchar then break elseif marks[nextchar] then -- always sequence.flags[1] 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 r2lflag = sequence.flags[4] -- mentioned in the standard local dx, dy, bound = setcursive(start,nxt,factor,rlmode,exit,entry,characters[startchar],characters[nextchar],r2lflag) if trace_cursive then logprocess("%s: moving %s to %s cursive (%p,%p) using bound %s in %s mode",pref(dataset,sequence),gref(startchar),gref(nextchar),dx,dy,bound,mref(rlmode)) end return head, start, true end end end break end end end return head, start, false 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(...) if trace_steps == "silent" then return end end report_subchain(...) end local logwarning = report_subchain local function logprocess(...) if trace_steps then registermessage(...) if trace_steps == "silent" then return end 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,skiphash) 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 reportzerosteps(dataset,sequence) logwarning("%s: no steps",cref(dataset,sequence)) end local function reportmoresteps(dataset,sequence) logwarning("%s: more than 1 step",cref(dataset,sequence)) end -- local function reportbadsteps(dataset,sequence) -- logwarning("%s: bad step, no proper return values",cref(dataset,sequence)) -- end local function getmapping(dataset,sequence,currentlookup) local steps = currentlookup.steps local nofsteps = currentlookup.nofsteps if nofsteps == 0 then reportzerosteps(dataset,sequence) currentlookup.mapping = false return false else if nofsteps > 1 then reportmoresteps(dataset,sequence) end local mapping = steps[1].coverage currentlookup.mapping = mapping currentlookup.format = steps[1].format return mapping end end function chainprocs.gsub_remove(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash,chainindex) if trace_chains then logprocess("%s: removing character %s",cref(dataset,sequence,chainindex),gref(getchar(start))) end head, start = remove_node(head,start,true) return head, getprev(start), true end function chainprocs.gsub_single(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash,chainindex) local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then local current = start while current do local currentchar = ischar(current) if currentchar then local replacement = mapping[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 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,rlmode,skiphash,chainindex) local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then 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 = mapping[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(currentchar),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(currentchar),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 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,rlmode,skiphash,chainindex) local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then local startchar = getchar(start) local replacement = mapping[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,skiphash,dataset[1],stop) 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]]-- -- compare to handlers.gsub_ligature which is more complex ... why function chainprocs.gsub_ligature(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash,chainindex) local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then local startchar = getchar(start) local ligatures = mapping[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 hasmarks = marks[startchar] local current = getnext(start) local discfound = false local last = stop local nofreplacements = 1 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 skiphash and skiphash[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 marks[char] then hasmarks = true end 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,skiphash,discfound,hasmarks) 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 end return head, start, false, 0, false end function chainprocs.gpos_single(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash,chainindex) local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then local startchar = getchar(start) local kerns = mapping[startchar] if kerns then local format = currentlookup.format if format == "single" then local dx, dy, w, h = setposition(0,start,factor,rlmode,kerns) -- currentlookup.flags ? if trace_kerns then logprocess("%s: shifting single %s by %s (%p,%p) and correction (%p,%p)",cref(dataset,sequence),gref(startchar),format,dx,dy,w,h) end else -- needs checking .. maybe no kerns format for single local k = (format == "move" and setmove or setkern)(start,factor,rlmode,kerns,injection) if trace_kerns then logprocess("%s: shifting single %s by %s %p",cref(dataset,sequence),gref(startchar),format,k) end end return head, start, true end end return head, start, false end function chainprocs.gpos_pair(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash,chainindex) -- todo: injections ? local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then local snext = getnext(start) if snext then local startchar = getchar(start) local kerns = mapping[startchar] -- always 1 step if kerns then local prev = start while snext do local nextchar = ischar(snext,currentfont) if not nextchar then break end if skiphash and skiphash[nextchar] then prev = snext snext = getnext(snext) else local krn = kerns[nextchar] if not krn then break end local format = currentlookup.format if format == "pair" then local a = krn[1] local b = krn[2] if a == true then -- zero elseif a then local x, y, w, h = setposition(1,start,factor,rlmode,a,"injections") -- currentlookups flags? if trace_kerns then local startchar = getchar(start) 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 == true then -- zero start = snext -- cf spec elseif b then -- #b > 0 local x, y, w, h = setposition(2,snext,factor,rlmode,b,"injections") if trace_kerns then local startchar = getchar(start) 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 start = snext -- cf spec elseif forcepairadvance then start = snext -- for testing, not cf spec end return head, start, true elseif krn ~= 0 then local k = (format == "move" and setmove or setkern)(snext,factor,rlmode,krn) if trace_kerns then logprocess("%s: inserting %s %p between %s and %s",cref(dataset,sequence),format,k,gref(getchar(prev)),gref(nextchar)) end return head, start, true else break end end end end end end return head, start, false end function chainprocs.gpos_mark2base(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash,chainindex) local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then local markchar = getchar(start) if marks[markchar] then local markanchors = mapping[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, bound %s, anchoring mark %s to basechar %s => (%p,%p)", cref(dataset,sequence),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 end return head, start, false end function chainprocs.gpos_mark2ligature(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash,chainindex) local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then local markchar = getchar(start) if marks[markchar] then local markanchors = mapping[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, bound %s, anchoring mark %s to baselig %s at index %s => (%p,%p)", cref(dataset,sequence),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 end return head, start, false end function chainprocs.gpos_mark2mark(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash,chainindex) local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then local markchar = getchar(start) if marks[markchar] then local markanchors = mapping[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, bound %s, anchoring mark %s to basemark %s => (%p,%p)", cref(dataset,sequence),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 end return head, start, false end function chainprocs.gpos_cursive(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash,chainindex) local mapping = currentlookup.mapping if mapping == nil then mapping = getmapping(dataset,sequence,currentlookup) end if mapping then local startchar = getchar(start) local exitanchors = mapping[startchar] -- always 1 step if exitanchors then 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 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 r2lflag = sequence.flags[4] -- mentioned in the standard local dx, dy, bound = setcursive(start,nxt,factor,rlmode,exit,entry,characters[startchar],characters[nextchar],r2lflag) if trace_cursive then logprocess("%s: moving %s to %s cursive (%p,%p) using bound %s in %s mode",pref(dataset,sequence),gref(startchar),gref(nextchar),dx,dy,bound,mref(rlmode)) end return head, start, true end end elseif trace_bugs then onetimemessage(currentfont,startchar,"no entry anchors",report_fonts) end break end end end elseif trace_cursive and trace_details then logprocess("%s, cursive %s is already done",pref(dataset,sequence),gref(getchar(start)),alreadydone) end end return head, start, false 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. 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 efficiency.) -- -- 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 userkern = nuts.pool and nuts.pool.newkern -- context do if not userkern then -- generic local thekern = nuts.new("kern",1) -- userkern local setkern = nuts.setkern -- not injections.setkern userkern = function(k) local n = copy_node(thekern) setkern(n,k) return n end end end local function checked(head) local current = head while current do if getid(current) == glue_code then local kern = userkern(getwidth(current)) 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,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 noflags = { false, false, false, false } local function chainrun(head,start,last,dataset,sequence,rlmode,skiphash,ck) local size = ck[5] - ck[4] + 1 local chainlookups = ck[6] local done = false -- current match if chainlookups then -- 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] for j=1,#chainlookup do local chainstep = chainlookup[j] local chainkind = chainstep.type local chainproc = chainprocs[chainkind] if chainproc then local ok head, start, ok = chainproc(head,start,last,dataset,sequence,chainstep,rlmode,skiphash) if ok then done = true end else logprocess("%s: %s is not yet supported (1)",cref(dataset,sequence),chainkind) end 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 -- -- Even worse are these family emoji shapes as they can have multiple lookups -- per slot (probably only for gpos). -- It's very unlikely that we will have skip classes here but still ... we seldom -- enter this branch anyway. local i = 1 local laststart = start local nofchainlookups = #chainlookups -- useful? while start do if skiphash then -- hm, so we know we skip some while start do local char = ischar(start,currentfont) if char then if skiphash and skiphash[char] then start = getnext(start) else break end else break end end end local chainlookup = chainlookups[i] if chainlookup then for j=1,#chainlookup do local chainstep = chainlookup[j] local chainkind = chainstep.type local chainproc = chainprocs[chainkind] if chainproc then local ok, n head, start, ok, n = chainproc(head,start,last,dataset,sequence,chainstep,rlmode,skiphash,i) -- 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 i = size -- prevents an advance break end end else -- actually an error logprocess("%s: %s is not yet supported (2)",cref(dataset,sequence),chainkind) end end else -- we skip but we could also delete as option .. what does an empty lookup actually mean -- in opentype ... anyway, we could map it onto gsub_remove if needed end i = i + 1 if i > size or not start then break elseif start then laststart = start start = getnext(start) end end if not start then start = laststart 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,skiphash) else done = true if trace_contexts then logprocess("%s: skipping match",cref(dataset,sequence)) end end end return head, start, done end local function chaindisk(head,start,dataset,sequence,rlmode,skiphash,ck) 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 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 lookaheaddisc = current local replace = getfield(current,"replace") if not replace then sweepoverflow = true sweepnode = current current = getnext(current) else while replace and i <= l do if getid(replace) == glyph_code then i = i + 1 end replace = getnext(replace) end current = getnext(replace) end last = current 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 following 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 -- we assume a simple text only replace (we could use nuts.count) local replace = getfield(current,"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 -- we assume a simple text only replace (we could use nuts.count) 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 done = 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 setlink(cprev,lookaheaddisc) setprev(cf) setnext(cl) if startishead then head = lookaheaddisc end local pre, post, replace = getdisc(lookaheaddisc) local new = copy_node_list(cf) -- br, how often does that happen local cnew = new if pre then setlink(find_node_tail(cf),pre) end if replace then local tail = find_node_tail(new) setlink(tail,replace) end for i=1,insertedmarks do cnew = getnext(cnew) end cl = start local clast = cnew for i=f,l do cl = getnext(cl) clast = getnext(clast) end if not notmatchpre[lookaheaddisc] then local ok = false cf, start, ok = chainrun(cf,start,cl,dataset,sequence,rlmode,skiphash,ck) if ok then done = true end end if not notmatchreplace[lookaheaddisc] then local ok = false new, cnew, ok = chainrun(new,cnew,clast,dataset,sequence,rlmode,skiphash,ck) if ok then done = true end end if hasglue then setdiscchecked(lookaheaddisc,cf,post,new) else setdisc(lookaheaddisc,cf,post,new) end start = getprev(lookaheaddisc) sweephead[cf] = getnext(clast) or false sweephead[new] = getnext(cl) or false 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 setlink(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 local ok = false cf, start, ok = chainrun(cf,start,last,dataset,sequence,rlmode,skiphash,ck) if ok then done = true end end if not notmatchreplace[backtrackdisc] then local ok = false new, cnew, ok = chainrun(new,cnew,clast,dataset,sequence,rlmode,skiphash,ck) if ok then done = true end 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) or false sweephead[replace] = getnext(last) or false else local ok = false head, start, ok = chainrun(head,start,last,dataset,sequence,rlmode,skiphash,ck) if ok then done = true end end return head, start, done end local function chaintrac(head,start,dataset,sequence,rlmode,skiphash,ck,match,discseen,sweepnode) local rule = ck[1] local lookuptype = ck[8] or ck[2] local nofseq = #ck[3] local first = ck[4] local last = ck[5] local char = getchar(start) logwarning("%s: rule %s %s at char %s for (%s,%s,%s) chars, lookuptype %a, %sdisc seen, %ssweeping", cref(dataset,sequence),rule,match and "matches" or "nomatch", gref(char),first-1,last-first+1,nofseq-last,lookuptype, discseen and "" or "no ", sweepnode and "" or "not ") end -- The next one is quite optimized but still somewhat slow, fonts like ebgaramond -- are real torture tests because they have many steps with one context (having -- multiple contexts makes more sense) also because we (can) reduce them. Instead of -- a match boolean variable and check for that I decided to use a goto with labels -- instead. This is one of the cases where it makes the code more readable and we -- might even gain a bit performance. -- when we have less replacements (lookups) then current matches we can push too much into -- the previous disc .. such be it ( with only f done) local function handle_contextchain(head,start,dataset,sequence,contexts,rlmode,skiphash) -- optimizing for rlmode gains nothing local sweepnode = sweepnode local sweeptype = sweeptype local postreplace local prereplace local checkdisc local discseen -- = false if sweeptype then if sweeptype == "replace" then postreplace = true prereplace = true else postreplace = sweeptype == "post" prereplace = sweeptype == "pre" end checkdisc = getprev(head) end local currentfont = currentfont local skipped -- = false local startprev, startnext = getboth(start) local done -- = false -- we can have multiple hits and as we scan (currently) all we need to check -- if we have a match ... contextchains have no real coverage table (with -- unique entries) -- fonts can have many steps (each doing one check) or many contexts -- todo: make a per-char cache so that we have small contexts (when we have a context -- n == 1 and otherwise it can be more so we can even distingish n == 1 or more) local nofcontexts = contexts.n -- #contexts local startchar = nofcontext == 1 or ischar(start,currentfont) -- only needed in a chain for k=1,nofcontexts do -- does this disc mess work well with n > 1 local ck = contexts[k] local seq = ck[3] local f = ck[4] -- first current if not startchar or not seq[f][startchar] then -- report("no hit in %a at %i of %i contexts",sequence.type,k,nofcontexts) goto next end local s = seq.n -- or #seq local l = ck[5] -- last current local current = start local last = start -- current match if l > f then -- before/current/after | before/current | current/after local discfound -- = nil local n = f + 1 last = startnext -- the second in current (first already matched) while n <= l do if postreplace and not last then last = getnext(sweepnode) sweeptype = nil end if last then local char, id = ischar(last,currentfont) if char then if skiphash and skiphash[char] then skipped = true if trace_skips then show_skip(dataset,sequence,char,ck,classes[char]) end last = getnext(last) elseif seq[n][char] then if n < l then last = getnext(last) end n = n + 1 elseif discfound then notmatchreplace[discfound] = true if notmatchpre[discfound] then goto next else break end else goto next end elseif char == false then if discfound then notmatchreplace[discfound] = true if notmatchpre[discfound] then goto next else break end else goto next end elseif id == disc_code then -- elseif id == disc_code and (not discs or discs[last]) then discseen = 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 if n > l then break end pre = getnext(pre) else notmatchpre[last] = true break end end -- commented, for Kai to check -- 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 if n > l then break end replace = getnext(replace) else notmatchreplace[last] = true if notmatchpre[last] then goto next else break end end end -- why here again if notmatchpre[last] then goto next end end -- maybe only if match last = getnext(last) else goto next end else goto next end end end -- before if f > 1 then if startprev then local prev = startprev if prereplace and prev == checkdisc then prev = getprev(sweepnode) 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 if skiphash and skiphash[char] then skipped = true if trace_skips then show_skip(dataset,sequence,char,ck,classes[char]) end prev = getprev(prev) elseif seq[n][char] then if n > 1 then prev = getprev(prev) end n = n - 1 elseif discfound then notmatchreplace[discfound] = true if notmatchpost[discfound] then goto next else break end else goto next end elseif char == false then if discfound then notmatchreplace[discfound] = true if notmatchpost[discfound] then goto next end else goto next end break elseif id == disc_code then -- elseif id == disc_code and (not discs or discs[prev]) then -- the special case: f i where i becomes dottless i .. discseen = true discfound = prev notmatchpre[prev] = true notmatchpost[prev] = nil notmatchreplace[prev] = nil local pre, post, replace, pretail, posttail, replacetail = getdisc(prev,true) -- weird test: needs checking 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 or n < 1 then break else posttail = getprev(posttail) 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 or n < 1 then break else replacetail = getprev(replacetail) end else notmatchreplace[prev] = true if notmatchpost[prev] then goto next else break end end end else -- notmatchreplace[prev] = true -- not according to Kai end end prev = getprev(prev) -- elseif id == glue_code and seq[n][32] and isspace(prev,threshold,id) then -- elseif seq[n][32] and spaces[prev] then -- n = n - 1 -- prev = getprev(prev) elseif id == glue_code then local sn = seq[n] if (sn[32] and spaces[prev]) or sn[0xFFFC] then n = n - 1 prev = getprev(prev) else goto next end elseif seq[n][0xFFFC] then n = n - 1 prev = getprev(prev) else goto next end else goto next end end else goto next end else goto next end end -- after if s > l then local current = last and getnext(last) if not current and postreplace then current = getnext(sweepnode) end if current then local discfound -- = nil local n = l + 1 while n <= s do if current then local char, id = ischar(current,currentfont) if char then if skiphash and skiphash[char] then skipped = true if trace_skips then show_skip(dataset,sequence,char,ck,classes[char]) 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 elseif discfound then notmatchreplace[discfound] = true if notmatchpre[discfound] then goto next else break end else goto next end elseif char == false then if discfound then notmatchreplace[discfound] = true if notmatchpre[discfound] then goto next else break end else goto next end elseif id == disc_code then -- elseif id == disc_code and (not discs or discs[current]) then discseen = 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 if n > s then break else pre = getnext(pre) 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 if n > s then break else replace = getnext(replace) end else notmatchreplace[current] = true if notmatchpre[current] then goto next else break end end end else -- notmatchreplace[current] = true -- not according to Kai end current = getnext(current) elseif id == glue_code then local sn = seq[n] if (sn[32] and spaces[current]) or sn[0xFFFC] then n = n + 1 current = getnext(current) else goto next end elseif seq[n][0xFFFC] then n = n + 1 current = getnext(current) else goto next end else goto next end end else goto next end end if trace_contexts then chaintrac(head,start,dataset,sequence,rlmode,skipped and skiphash,ck,true,discseen,sweepnode) end if discseen or sweepnode then head, start, done = chaindisk(head,start,dataset,sequence,rlmode,skipped and skiphash,ck) else head, start, done = chainrun(head,start,last,dataset,sequence,rlmode,skipped and skiphash,ck) end if done then break -- else -- next context end ::next:: -- if trace_chains then -- chaintrac(head,start,dataset,sequence,rlmode,skipped and skiphash,ck,false,discseen,sweepnode) -- end end if discseen then notmatchpre = { } notmatchpost = { } notmatchreplace = { } -- notmatchpre = { a = 1, b = 1 } notmatchpre .a = nil notmatchpre .b = nil -- notmatchpost = { a = 1, b = 1 } notmatchpost .a = nil notmatchpost .b = nil -- notmatchreplace = { a = 1, b = 1 } notmatchreplace.a = nil notmatchreplace.b = nil 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,skiphash) local steps = currentlookup.steps local nofsteps = currentlookup.nofsteps if nofsteps > 1 then reportmoresteps(dataset,sequence) end -- probably wrong local l = steps[1].coverage[getchar(start)] if l then return handle_contextchain(head,start,dataset,sequence,l,rlmode,skiphash) else return head, start, false end 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 ------------------------------ -- experiment (needs no handler in font-otc so not now): -- -- function otf.registerchainproc(name,f) -- -- chainprocs[name] = f -- chainprocs[name] = function(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash) -- local done = currentlookup.nofsteps > 0 -- if not done then -- reportzerosteps(dataset,sequence) -- else -- head, start, done = f(head,start,stop,dataset,sequence,currentlookup,rlmode,skiphash) -- if not head or not start then -- reportbadsteps(dataset,sequence) -- end -- end -- return head, start, done -- end -- end local missing = setmetatableindex("table") local logwarning = report_process local resolved = { } -- we only resolve a font,script,language pair once local function logprocess(...) if trace_steps then registermessage(...) if trace_steps == "silent" then return end end report_process(...) end -- 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 do -- overcome local limit local autofeatures = fonts.analyzers.features local featuretypes = otf.tables.featuretypes local defaultscript = otf.features.checkeddefaultscript local defaultlanguage = otf.features.checkeddefaultlanguage local wildcard = "*" local default = "dflt" 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 end -- Functions like kernrun, comprun etc evolved over time and in the end look rather -- complex. It's a bit of a compromis between extensive copying and creating subruns. -- The logic has been improved a lot by Kai and Ivo who use complex fonts which -- really helped to identify border cases on the one hand and get insight in the diverse -- ways fonts implement features (not always that consistent and efficient). At the same -- time I tried to keep the code relatively efficient so that the overhead in runtime -- stays acceptable. 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 setlink(prev,pre) if k_run(prevmarks,"preinjections",pre,font,attr,...) then -- or prev? done = true end setprev(pre) setlink(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) setlink(disc,next) end end -- if replace then if k_run(replace,"injections",nil,font,attr,...) then done = true end if prev then setlink(prev,replace) if k_run(prevmarks,"replaceinjections",replace,font,attr,...) then -- getnext(replace)) done = true end setprev(replace) setlink(prev,disc) end if next then setlink(replacetail,next) if k_run(replacetail,"replaceinjections",next,font,attr,...) then done = true end setnext(replacetail) setlink(disc,next) end elseif prev and next then setlink(prev,next) if k_run(prevmarks,"emptyinjections",next,font,attr,...) then done = true end setlink(prev,disc,next) end if done and trace_testruns then report_disc("done",disc) end return nextstart, done end -- fonts like ebgaramond do ligatures this way (less efficient than e.g. dejavu which -- will do the testrun variant) local function comprun(disc,c_run,...) -- vararg faster than the whole list 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 used (also used then for properties, 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 if trace_testruns then report_disc("done",disc) end setdisc(disc,pre,post,replace) end -- return getnext(disc), renewed end -- if we can hyphenate in a lig then unlikely a lig so we -- could have a option here to ignore lig 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 renewed = false if (post or replace) then -- and prev then -- hm, we can start with a disc if post then setlink(posttail,next) else post = next end if replace then setlink(replacetail,next) else replace = next end local d_post = t_run(post,next,...) local d_replace = t_run(replace,next,...) if d_post > 0 or d_replace > 0 then local d = d_replace > d_post and d_replace or d_post local head = getnext(disc) -- is: next local tail = head for i=2,d do -- must start at 2 according to Kai local nx = getnext(tail) local id = getid(nx) if id == disc_code then head, tail = flattendisk(head,nx) elseif id == glyph_code then tail = nx else -- we can have overrun into a glue break end end next = getnext(tail) setnext(tail) setprev(head) local new = copy_node_list(head) if posttail then setlink(posttail,head) else post = head end if replacetail then setlink(replacetail,new) else replace = new end else -- we stay inside the disc if posttail then setnext(posttail) else post = nil end if replacetail then setnext(replacetail) else replace = nil end end setlink(disc,next) -- pre, post, replace, pretail, posttail, replacetail = getdisc(disc,true) end -- -- like comprun -- if trace_testruns then report_disc("more",disc) end -- 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) if trace_testruns then report_disc("done",disc) end end -- next can have changed (copied list) return getnext(disc), renewed 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 = getglyhpdata(start) -- -- 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 = getglyphdata(start) -- -- 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,skiphash,handler) local done = false local sweep = sweephead[head] if sweep then start = sweep -- sweephead[head] = nil sweephead[head] = false else start = head end while start do local char, id = ischar(start,font) if char then local a -- happens often so no assignment is faster if attr then a = getglyphdata(start) end 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,skiphash,step) 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 -- only replace? local function t_run_single(start,stop,font,attr,lookupcache) local lastd = nil while start ~= stop do local char = ischar(start,font) if char then local a -- happens often so no assignment is faster if attr then a = getglyphdata(start) end local startnext = getnext(start) 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 = startnext local ss = nil local sstop = s == stop if not s then s = ss ss = nil end -- a bit weird: why multiple ... anyway we can't have a disc in a disc -- how about post ... we can probably merge this into the while while getid(s) == disc_code do ss = getnext(s) s = getfield(s,"replace") if not s then s = ss ss = nil end end local l = nil local d = 0 while s do local char = ischar(s,font) if char then local lg = lookupmatch[char] if lg then if sstop then d = 1 elseif d > 0 then d = d + 1 end l = lg s = getnext(s) sstop = s == stop if not s then s = ss ss = nil end while getid(s) == disc_code do ss = getnext(s) s = getfield(s,"replace") if not s then s = ss ss = nil end end lookupmatch = lg else break end else break end end if l and l.ligature then -- so we test for ligature lastd = d end -- why not: if not l then break elseif l.ligature then return d end else -- why not: break -- no match (yet) end else -- go on can be a mixed one -- why not: break end if lastd then return lastd end start = startnext else break end end return 0 end local function k_run_single(sub,injection,last,font,attr,lookupcache,step,dataset,sequence,rlmode,skiphash,handler) local a -- happens often so no assignment is faster if attr then a = getglyphdata(sub) end if not a or (a == attr) then for n in nextnode, 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,skiphash,step,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,skiphash,handler) local done = false local sweep = sweephead[head] if sweep then start = sweep -- sweephead[head] = nil sweephead[head] = false else start = head end while start do local char = ischar(start,font) if char then local a -- happens often so no assignment is faster if attr then a = getglyphdata(start) end if not a or (a == attr) then for i=1,nofsteps do local step = steps[i] local lookupcache = step.coverage 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,skiphash,step) if ok then done = true break elseif not start then -- don't ask why ... shouldn't happen break end 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) local lastd = nil while start ~= stop do local char = ischar(start,font) if char then local a -- happens often so no assignment is faster if attr then a = getglyphdata(start) end local startnext = getnext(start) if not a or (a == attr) then for i=1,nofsteps do local step = steps[i] local lookupcache = step.coverage local lookupmatch = lookupcache[char] if lookupmatch then -- if we need more than ligatures we can outline the code and use functions local s = startnext local ss = nil local sstop = s == stop if not s then s = ss ss = nil end while getid(s) == disc_code do ss = getnext(s) s = getfield(s,"replace") if not s then s = ss ss = nil end end local l = nil local d = 0 while s do local char = ischar(s) if char then local lg = lookupmatch[char] if lg then if sstop then d = 1 elseif d > 0 then d = d + 1 end l = lg s = getnext(s) sstop = s == stop if not s then s = ss ss = nil end while getid(s) == disc_code do ss = getnext(s) s = getfield(s,"replace") if not s then s = ss ss = nil end end lookupmatch = lg else break end else break end end if l and l.ligature then lastd = d end end end else -- go on can be a mixed one end if lastd then return lastd end start = startnext else break end end return 0 end local function k_run_multiple(sub,injection,last,font,attr,steps,nofsteps,dataset,sequence,rlmode,skiphash,handler) local a -- happens often so no assignment is faster if attr then a = getglyphdata(sub) end if not a or (a == attr) then for n in nextnode, 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 local lookupmatch = lookupcache[char] if lookupmatch then local h, d, ok = handler(sub,n,dataset,sequence,lookupmatch,rlmode,skiphash,step,injection) -- sub was head if ok then return true end end end end end end end local txtdirstate, pardirstate do -- this might change (no need for nxt in pardirstate) local getdirection = nuts.getdirection local lefttoright = 0 local righttoleft = 1 txtdirstate = function(start,stack,top,rlparmode) local dir, pop = getdirection(start) if pop then if top == 1 then return 0, rlparmode else top = top - 1 if stack[top] == righttoleft then return top, -1 else return top, 1 end end elseif dir == lefttoright then top = top + 1 stack[top] = lefttoright return top, 1 elseif dir == righttoleft then top = top + 1 stack[top] = righttoleft return top, -1 else return top, rlparmode end end pardirstate = function(start) local dir = getdirection(start) if dir == lefttoright then return 1, 1 elseif dir == righttoleft then return -1, -1 -- for old times sake we we handle strings too elseif dir == "TLT" then return 1, 1 elseif dir == "TRT" then return -1, -1 else return 0, 0 end end end -- These are non public helpers that can change without notice! otf.helpers = otf.helpers or { } otf.helpers.txtdirstate = txtdirstate otf.helpers.pardirstate = pardirstate -- This is the main loop. We run over the node list dealing with a specific font. The -- attribute is a context specific thing. 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. Apart from -- optimizations the principles of processing the features hasn't changed much since -- the beginning. do -- reference: -- -- local a = attr and getglyphdata(start) -- 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 -- -- used: -- -- local a -- happens often so no assignment is faster -- if attr then -- if getglyphdata(start) == attr and (not attribute or getprop(start,a_state) == attribute) then -- a = true -- end -- elseif not attribute or getprop(start,a_state) == attribute then -- a = true -- end -- This is a measurable experimental speedup (only with hyphenated text and multiple -- fonts per processor call), especially for fonts with lots of contextual lookups. local fastdisc = true local testdics = false directives.register("otf.fastdisc",function(v) fastdisc = v end) -- normally enabled -- using a merged combined hash as first test saves some 30% on ebgaramond and -- about 15% on arabtype .. then moving the a test also saves a bit (even when -- often a is not set at all so that one is a bit debatable local otfdataset = nil -- todo: make an installer local getfastdisc = { __index = function(t,k) local v = usesfont(k,currentfont) t[k] = v return v end } local getfastspace = { __index = function(t,k) -- we don't pass the id so that one can overload isspace local v = isspace(k,threshold) or false t[k] = v return v end } function otf.featuresprocessor(head,font,attr,direction,n) local sequences = sequencelists[font] -- temp hack nesting = nesting + 1 if nesting == 1 then currentfont = font tfmdata = fontdata[font] descriptions = tfmdata.descriptions -- only needed in gref so we could pass node there instead characters = tfmdata.characters -- but this branch is not entered that often anyway local resources = tfmdata.resources marks = resources.marks classes = resources.classes threshold, factor = getthreshold(font) checkmarks = tfmdata.properties.checkmarks if not otfdataset then otfdataset = otf.dataset end discs = fastdisc and n and n > 1 and setmetatable({},getfastdisc) -- maybe inline spaces = setmetatable({},getfastspace) 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 if trace_steps then checkstep(head) end local initialrl = 0 if getid(head) == localpar_code and getsubtype(head) == 0 then initialrl = pardirstate(head) elseif direction == 1 or direction == "TRT" then initialrl = -1 end -- local done = false local datasets = otfdataset(tfmdata,font,attr) local dirstack = { nil } -- could move outside function but we can have local runs sweephead = { } -- sweephead = { a = 1, b = 1 } sweephead.a = nil sweephead.b = nil -- Keeping track of the headnode is needed for devanagari. (I generalized it a bit -- so that multiple cases are also covered.) We could prepend a temp node. -- 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] local attribute = dataset[2] local sequence = dataset[3] -- sequences[s] -- also dataset[5] local rlparmode = initialrl local topstack = 0 local typ = sequence.type local gpossing = typ == "gpos_single" or typ == "gpos_pair" -- store in dataset local forcetestrun = typ == "gsub_ligature" -- testrun is only for ligatures local handler = handlers[typ] -- store in dataset local steps = sequence.steps local nofsteps = sequence.nofsteps local skiphash = sequence.skiphash if not steps then -- This permits injection, watch the different arguments. Watch out, the arguments passed -- are not frozen as we might extend or change this. Is this used at all apart from some -- experiments? local h, ok = handler(head,dataset,sequence,initialrl,font,attr) -- less arguments now -- if ok then -- done = true -- end if h and h ~= head then head = h end elseif typ == "gsub_reversecontextchain" then -- -- This might need a check: if we have #before or #after > 0 then we might need to reverse -- the before and after lists in the loader. But first I need to see a font that uses multiple -- matches. -- local start = find_node_tail(head) local rlmode = 0 -- how important is this .. do we need to check for dir? local merged = steps.merged while start do local char = ischar(start,font) if char then local m = merged[char] if m then local a -- happens often so no assignment is faster if attr then a = getglyphdata(start) end if not a or (a == attr) then for i=m[1],m[2] do local step = steps[i] -- for i=1,#m do -- local step = m[i] local lookupcache = step.coverage local lookupmatch = lookupcache[char] if lookupmatch then local ok head, start, ok = handler(head,start,dataset,sequence,lookupmatch,rlmode,skiphash,step) if ok then -- done = true break end end end if start then start = getprev(start) end else start = getprev(start) end else start = getprev(start) end else start = getprev(start) end end else local start = head local rlmode = initialrl if nofsteps == 1 then -- happens often local step = steps[1] local lookupcache = step.coverage while start do local char, id = ischar(start,font) if char then if skiphash and skiphash[char] then -- we never needed it here but let's try start = getnext(start) else local lookupmatch = lookupcache[char] if lookupmatch then local a -- happens often so no assignment is faster if attr then if getglyphdata(start) == attr and (not attribute or getprop(start,a_state) == attribute) then a = true end elseif not attribute or getprop(start,a_state) == attribute then a = true end if a then local ok, df head, start, ok, df = handler(head,start,dataset,sequence,lookupmatch,rlmode,skiphash,step) -- if ok then -- done = true -- end if df then -- print("restart 1",typ) elseif start then start = getnext(start) end else start = getnext(start) end else start = getnext(start) end end elseif char == false or id == glue_code then -- a different font|state or glue (happens often) start = getnext(start) elseif id == disc_code then if not discs or discs[start] == true then local ok if gpossing then start, ok = kernrun(start,k_run_single, font,attr,lookupcache,step,dataset,sequence,rlmode,skiphash,handler) elseif forcetestrun then start, ok = testrun(start,t_run_single,c_run_single,font,attr,lookupcache,step,dataset,sequence,rlmode,skiphash,handler) else start, ok = comprun(start,c_run_single, font,attr,lookupcache,step,dataset,sequence,rlmode,skiphash,handler) end -- if ok then -- done = true -- end else start = getnext(start) end elseif id == math_code then start = getnext(end_of_math(start)) elseif id == dir_code then topstack, rlmode = txtdirstate(start,dirstack,topstack,rlparmode) start = getnext(start) -- elseif id == localpar_code then -- rlparmode, rlmode = pardirstate(start) -- start = getnext(start) else start = getnext(start) end end else local merged = steps.merged while start do local char, id = ischar(start,font) if char then if skiphash and skiphash[char] then -- we never needed it here but let's try start = getnext(start) else local m = merged[char] if m then local a -- happens often so no assignment is faster if attr then if getglyphdata(start) == attr and (not attribute or getprop(start,a_state) == attribute) then a = true end elseif not attribute or getprop(start,a_state) == attribute then a = true end if a then local ok, df for i=m[1],m[2] do local step = steps[i] -- for i=1,#m do -- local step = m[i] local lookupcache = step.coverage local lookupmatch = lookupcache[char] if lookupmatch then -- we could move all code inline but that makes things even more unreadable -- local ok, df head, start, ok, df = handler(head,start,dataset,sequence,lookupmatch,rlmode,skiphash,step) if df then break elseif ok then -- done = true break elseif not start then -- don't ask why ... shouldn't happen break end end end if df then -- print("restart 2",typ) elseif start then start = getnext(start) end else start = getnext(start) end else start = getnext(start) end end elseif char == false or id == glue_code then -- a different font|state or glue (happens often) start = getnext(start) elseif id == disc_code then if not discs or discs[start] == true then local ok if gpossing then start, ok = kernrun(start,k_run_multiple, font,attr,steps,nofsteps,dataset,sequence,rlmode,skiphash,handler) elseif forcetestrun then start, ok = testrun(start,t_run_multiple,c_run_multiple,font,attr,steps,nofsteps,dataset,sequence,rlmode,skiphash,handler) else start, ok = comprun(start,c_run_multiple, font,attr,steps,nofsteps,dataset,sequence,rlmode,skiphash,handler) end -- if ok then -- done = true -- end else start = getnext(start) end elseif id == math_code then start = getnext(end_of_math(start)) elseif id == dir_code then topstack, rlmode = txtdirstate(start,dirstack,topstack,rlparmode) start = getnext(start) -- elseif id == localpar_code then -- rlparmode, rlmode = pardirstate(start) -- start = getnext(start) else start = getnext(start) end end end end if trace_steps then -- ? registerstep(head) end end nesting = nesting - 1 -- return head, done return head end -- This is not an official helper and used for tracing experiments. It can be changed as I like -- at any moment. At some point it might be used in a module that can help font development. function otf.datasetpositionprocessor(head,font,direction,dataset) currentfont = font tfmdata = fontdata[font] descriptions = tfmdata.descriptions -- only needed in gref so we could pass node there instead characters = tfmdata.characters -- but this branch is not entered that often anyway local resources = tfmdata.resources marks = resources.marks classes = resources.classes threshold, factor = getthreshold(font) checkmarks = tfmdata.properties.checkmarks if type(dataset) == "number" then dataset = otfdataset(tfmdata,font,0)[dataset] end local sequence = dataset[3] -- sequences[s] -- also dataset[5] local typ = sequence.type -- local gpossing = typ == "gpos_single" or typ == "gpos_pair" -- store in dataset -- gpos_contextchain gpos_context -- if not gpossing then -- return head, false -- end local handler = handlers[typ] -- store in dataset local steps = sequence.steps local nofsteps = sequence.nofsteps local done = false local dirstack = { nil } -- could move outside function but we can have local runs (maybe a few more nils) local start = head local initialrl = (direction == 1 or direction == "TRT") and -1 or 0 local rlmode = initialrl local rlparmode = initialrl local topstack = 0 local merged = steps.merged -- local matches = false local position = 0 while start do local char, id = ischar(start,font) if char then position = position + 1 local m = merged[char] if m then if skiphash and skiphash[char] then -- we never needed it here but let's try start = getnext(start) else for i=m[1],m[2] do local step = steps[i] local lookupcache = step.coverage local lookupmatch = lookupcache[char] if lookupmatch then local ok head, start, ok = handler(head,start,dataset,sequence,lookupmatch,rlmode,skiphash,step) if ok then -- if matches then -- matches[position] = i -- else -- matches = { [position] = i } -- end break elseif not start then break end end end if start then start = getnext(start) end end else start = getnext(start) end elseif char == false or id == glue_code then -- a different font|state or glue (happens often) start = getnext(start) elseif id == math_code then start = getnext(end_of_math(start)) elseif id == dir_code then topstack, rlmode = txtdirstate(start,dirstack,topstack,rlparmode) start = getnext(start) -- elseif id == localpar_code then -- rlparmode, rlmode = pardirstate(start) -- start = getnext(start) else start = getnext(start) end end return head end -- end of experiment end -- so far local plugins = { } otf.plugins = plugins local report = logs.reporter("fonts") function otf.registerplugin(name,f) if type(name) == "string" and type(f) == "function" then plugins[name] = { name, f } report() report("plugin %a has been loaded, please be aware of possible side effects",name) report() if logs.pushtarget then logs.pushtarget("log") end report("Plugins are not officially supported unless stated otherwise. This is because") report("they bypass the regular font handling and therefore some features in ConTeXt") report("(especially those related to fonts) might not work as expected or might not work") report("at all. Some plugins are for testing and development only and might change") report("whenever we feel the need for it.") report() if logs.poptarget then logs.poptarget() end end end function otf.plugininitializer(tfmdata,value) if type(value) == "string" then tfmdata.shared.plugin = plugins[value] end end function otf.pluginprocessor(head,font,attr,direction) -- n 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,attr,direction) else return head, false end end function otf.featuresinitializer(tfmdata,value) -- nothing done here any more end registerotffeature { name = "features", description = "features", default = true, initializers = { position = 1, node = otf.featuresinitializer, plug = otf.plugininitializer, }, processors = { node = otf.featuresprocessor, plug = otf.pluginprocessor, } } -- This can be used for extra handlers, but should be used with care! We implement one -- here but some more can be found in the osd (script devanagary) file. Now watch out: -- when a handlers has steps, it is called as the other ones, but when we have no steps, -- we use a different call: -- -- function(head,dataset,sequence,initialrl,font,attr) -- return head, done -- end -- -- Also see (!!). otf.handlers = handlers local setspacekerns = nodes.injections.setspacekerns if not setspacekerns then os.exit() end local tag = "kern" -- maybe some day a merge if fontfeatures then function handlers.trigger_space_kerns(head,dataset,sequence,initialrl,font,attr) local features = fontfeatures[font] local enabled = features and features.spacekern and features[tag] if enabled then setspacekerns(font,sequence) end return head, enabled end else -- generic (no hashes) function handlers.trigger_space_kerns(head,dataset,sequence,initialrl,font,attr) local shared = fontdata[font].shared local features = shared and shared.features local enabled = features and features.spacekern and features[tag] if enabled then setspacekerns(font,sequence) end return head, enabled end end -- There are fonts out there that change the space but we don't do that kind of -- things in TeX. local function hasspacekerns(data) local resources = data.resources local sequences = resources.sequences local validgpos = resources.features.gpos if validgpos and sequences then for i=1,#sequences do local sequence = sequences[i] local steps = sequence.steps if steps and sequence.features[tag] then local kind = sequence.type if kind == "gpos_pair" or kind == "gpos_single" then for i=1,#steps do local step = steps[i] local coverage = step.coverage local rules = step.rules if rules then -- not now: analyze (simple) rules elseif not coverage then -- nothing to do elseif kind == "gpos_single" then -- maybe a message that we ignore elseif kind == "gpos_pair" then local format = step.format if format == "move" or format == "kern" then local kerns = coverage[32] if kerns then return true end for k, v in next, coverage do if v[32] then return true end end elseif format == "pair" then local kerns = coverage[32] if kerns then for k, v in next, kerns do local one = v[1] if one and one ~= true then return true end end end for k, v in next, coverage do local kern = v[32] if kern then local one = kern[1] if one and one ~= true then return true end end end end end end end end end end return false end otf.readers.registerextender { name = "spacekerns", action = function(data) data.properties.hasspacekerns = hasspacekerns(data) end } local function spaceinitializer(tfmdata,value) -- attr local resources = tfmdata.resources local spacekerns = resources and resources.spacekerns if value and spacekerns == nil then local rawdata = tfmdata.shared and tfmdata.shared.rawdata local properties = rawdata.properties if properties and properties.hasspacekerns then local sequences = resources.sequences local validgpos = resources.features.gpos if validgpos and sequences then 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 -- we don't support space kerns in other features local kern = sequence.features[tag] if kern then local kind = sequence.type if kind == "gpos_pair" or kind == "gpos_single" 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 if rules then -- not now: analyze (simple) rules elseif not coverage then -- nothng to do elseif kind == "gpos_single" then -- makes no sense in TeX elseif kind == "gpos_pair" then local format = step.format if format == "move" or format == "kern" then local kerns = coverage[32] if kerns then for k, v in next, kerns do right[k] = v end end for k, v in next, coverage do local kern = v[32] if kern then left[k] = kern end end elseif format == "pair" then local kerns = coverage[32] if kerns then for k, v in next, kerns do local one = v[1] if one and one ~= true then right[k] = one[3] end end end for k, v in next, coverage do local kern = v[32] if kern then local one = kern[1] if one and one ~= true 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 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 = { -- no steps, see (!!) features = { [tag] = feat or { dflt = { dflt = true, } } }, flags = noflags, name = "trigger_space_kerns", order = { tag }, type = "trigger_space_kerns", left = left, right = right, } insert(sequences,last,triggersequence) end end end 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, }, }