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|
if not modules then modules = { } end modules ['font-oto'] = { -- original tex
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"
}
-- This is a version of font-otb adapted to the new fontloader code. We used to have two
-- base initialization methods but now we have only one. This means that instead of the
-- old default (independent) we now use the one more similar to node node (shared).
local concat, unpack = table.concat, table.unpack
local insert, remove = table.insert, table.remove
local format, gmatch, gsub, find, match, lower, strip = string.format, string.gmatch, string.gsub, string.find, string.match, string.lower, string.strip
local type, next, tonumber, tostring, rawget = type, next, tonumber, tostring, rawget
local trace_baseinit = false trackers.register("otf.baseinit", function(v) trace_baseinit = v end)
local trace_singles = false trackers.register("otf.singles", function(v) trace_singles = v end)
local trace_multiples = false trackers.register("otf.multiples", function(v) trace_multiples = v end)
local trace_alternatives = false trackers.register("otf.alternatives", function(v) trace_alternatives = v end)
local trace_ligatures = false trackers.register("otf.ligatures", function(v) trace_ligatures = v end)
----- trace_ligatures_detail = false trackers.register("otf.ligatures.detail", function(v) trace_ligatures_detail = v end)
local trace_kerns = false trackers.register("otf.kerns", function(v) trace_kerns = v end)
local trace_preparing = false trackers.register("otf.preparing", function(v) trace_preparing = v end)
local report_prepare = logs.reporter("fonts","otf prepare")
local fonts = fonts
local otf = fonts.handlers.otf
local otffeatures = otf.features
local registerotffeature = otffeatures.register
otf.defaultbasealternate = "none" -- first last
local wildcard = "*"
local default = "dflt"
local formatters = string.formatters
local f_unicode = formatters["%U"]
local f_uniname = formatters["%U (%s)"]
local f_unilist = formatters["% t (% t)"]
local function gref(descriptions,n)
if type(n) == "number" then
local name = descriptions[n].name
if name then
return f_uniname(n,name)
else
return f_unicode(n)
end
elseif n then
local num, nam, j = { }, { }, 0
for i=1,#n do
local ni = n[i]
if tonumber(ni) then -- first is likely a key
j = j + 1
local di = descriptions[ni]
num[j] = f_unicode(ni)
nam[j] = di and di.name or "-"
end
end
return f_unilist(num,nam)
else
return "<error in base mode tracing>"
end
end
local function cref(feature,sequence)
return formatters["feature %a, type %a, chain lookup %a"](feature,sequence.type,sequence.name)
end
local function report_alternate(feature,sequence,descriptions,unicode,replacement,value,comment)
report_prepare("%s: base alternate %s => %s (%S => %S)",
cref(feature,sequence),
gref(descriptions,unicode),
replacement and gref(descriptions,replacement),
value,
comment)
end
local function report_substitution(feature,sequence,descriptions,unicode,substitution)
report_prepare("%s: base substitution %s => %S",
cref(feature,sequence),
gref(descriptions,unicode),
gref(descriptions,substitution))
end
local function report_ligature(feature,sequence,descriptions,unicode,ligature)
report_prepare("%s: base ligature %s => %S",
cref(feature,sequence),
gref(descriptions,ligature),
gref(descriptions,unicode))
end
local function report_kern(feature,sequence,descriptions,unicode,otherunicode,value)
report_prepare("%s: base kern %s + %s => %S",
cref(feature,sequence),
gref(descriptions,unicode),
gref(descriptions,otherunicode),
value)
end
-- We need to make sure that luatex sees the difference between base fonts that have
-- different glyphs in the same slots in fonts that have the same fullname (or filename).
-- LuaTeX will merge fonts eventually (and subset later on). If needed we can use a more
-- verbose name as long as we don't use <()<>[]{}/%> and the length is < 128.
local basehash, basehashes, applied = { }, 1, { }
local function registerbasehash(tfmdata)
local properties = tfmdata.properties
local hash = concat(applied," ")
local base = basehash[hash]
if not base then
basehashes = basehashes + 1
base = basehashes
basehash[hash] = base
end
properties.basehash = base
properties.fullname = (properties.fullname or properties.name) .. "-" .. base
-- report_prepare("fullname base hash '%a, featureset %a",tfmdata.properties.fullname,hash)
applied = { }
end
local function registerbasefeature(feature,value)
applied[#applied+1] = feature .. "=" .. tostring(value)
end
-- The original basemode ligature builder used the names of components and did some expression
-- juggling to get the chain right. The current variant starts with unicodes but still uses
-- names to make the chain. This is needed because we have to create intermediates when needed
-- but use predefined snippets when available. To some extend the current builder is more stupid
-- but I don't worry that much about it as ligatures are rather predicatable.
--
-- Personally I think that an ff + i == ffi rule as used in for instance latin modern is pretty
-- weird as no sane person will key that in and expect a glyph for that ligature plus the following
-- character. Anyhow, as we need to deal with this, we do, but no guarantes are given.
--
-- latin modern dejavu
--
-- f+f 102 102 102 102
-- f+i 102 105 102 105
-- f+l 102 108 102 108
-- f+f+i 102 102 105
-- f+f+l 102 102 108 102 102 108
-- ff+i 64256 105 64256 105
-- ff+l 64256 108
--
-- As you can see here, latin modern is less complete than dejavu but
-- in practice one will not notice it.
--
-- The while loop is needed because we need to resolve for instance pseudo names like
-- hyphen_hyphen to endash so in practice we end up with a bit too many definitions but the
-- overhead is neglectable. We can have changed[first] or changed[second] but it quickly becomes
-- messy if we need to take that into account.
local function makefake(tfmdata,name,present)
local resources = tfmdata.resources
local private = resources.private
local character = { intermediate = true, ligatures = { } }
resources.unicodes[name] = private
tfmdata.characters[private] = character
tfmdata.descriptions[private] = { name = name }
resources.private = private + 1
present[name] = private
return character
end
local function make_1(present,tree,name)
for k, v in next, tree do
if k == "ligature" then
present[name] = v
else
make_1(present,v,name .. "_" .. k)
end
end
end
local function make_2(present,tfmdata,characters,tree,name,preceding,unicode,done)
for k, v in next, tree do
if k == "ligature" then
local character = characters[preceding]
if not character then
if trace_baseinit then
report_prepare("weird ligature in lookup %a, current %C, preceding %C",sequence.name,v,preceding)
end
character = makefake(tfmdata,name,present)
end
local ligatures = character.ligatures
if ligatures then
ligatures[unicode] = { char = v }
else
character.ligatures = { [unicode] = { char = v } }
end
if done then
local d = done[name]
if not d then
done[name] = { "dummy", v }
else
d[#d+1] = v
end
end
else
local code = present[name] or unicode
local name = name .. "_" .. k
make_2(present,tfmdata,characters,v,name,code,k,done)
end
end
end
local function preparesubstitutions(tfmdata,feature,value,validlookups,lookuplist)
local characters = tfmdata.characters
local descriptions = tfmdata.descriptions
local resources = tfmdata.resources
local changed = tfmdata.changed
local ligatures = { }
local alternate = tonumber(value) or true and 1
local defaultalt = otf.defaultbasealternate
local trace_singles = trace_baseinit and trace_singles
local trace_alternatives = trace_baseinit and trace_alternatives
local trace_ligatures = trace_baseinit and trace_ligatures
if not changed then
changed = { }
tfmdata.changed = changed
end
for i=1,#lookuplist do
local sequence = lookuplist[i]
local steps = sequence.steps
local kind = sequence.type
if kind == "gsub_single" then
for i=1,#steps do
for unicode, data in next, steps[i].coverage do
-- if not changed[unicode] then -- fails for multiple subs in some math fonts
if trace_singles then
report_substitution(feature,sequence,descriptions,unicode,data)
end
changed[unicode] = data
-- end
end
end
elseif kind == "gsub_alternate" then
for i=1,#steps do
for unicode, data in next, steps[i].coverage do
if not changed[unicode] then
local replacement = data[alternate]
if replacement then
changed[unicode] = replacement
if trace_alternatives then
report_alternate(feature,sequence,descriptions,unicode,replacement,value,"normal")
end
elseif defaultalt == "first" then
replacement = data[1]
changed[unicode] = replacement
if trace_alternatives then
report_alternate(feature,sequence,descriptions,unicode,replacement,value,defaultalt)
end
elseif defaultalt == "last" then
replacement = data[#data]
if trace_alternatives then
report_alternate(feature,sequence,descriptions,unicode,replacement,value,defaultalt)
end
else
if trace_alternatives then
report_alternate(feature,sequence,descriptions,unicode,replacement,value,"unknown")
end
end
end
end
end
elseif kind == "gsub_ligature" then
for i=1,#steps do
for unicode, data in next, steps[i].coverage do
ligatures[#ligatures+1] = { unicode, data, "" } -- lookupname }
if trace_ligatures then
report_ligature(feature,sequence,descriptions,unicode,data)
end
end
end
end
end
local nofligatures = #ligatures
if nofligatures > 0 then
local characters = tfmdata.characters
local present = { }
local done = trace_baseinit and trace_ligatures and { }
for i=1,nofligatures do
local ligature = ligatures[i]
local unicode, tree = ligature[1], ligature[2]
make_1(present,tree,"ctx_"..unicode)
end
for i=1,nofligatures do
local ligature = ligatures[i]
local unicode, tree, lookupname = ligature[1], ligature[2], ligature[3]
make_2(present,tfmdata,characters,tree,"ctx_"..unicode,unicode,unicode,done,sequence)
end
end
end
local function preparepositionings(tfmdata,feature,value,validlookups,lookuplist)
local characters = tfmdata.characters
local descriptions = tfmdata.descriptions
local resources = tfmdata.resources
local properties = tfmdata.properties
local traceindeed = trace_baseinit and trace_kerns
-- check out this sharedkerns trickery
for i=1,#lookuplist do
local sequence = lookuplist[i]
local steps = sequence.steps
local kind = sequence.type
local format = sequence.format
if kind == "gpos_pair" then
for i=1,#steps do
local step = steps[i]
if step.format == "kern" then
for unicode, data in next, steps[i].coverage do
local character = characters[unicode]
local kerns = character.kerns
if not kerns then
kerns = { }
character.kerns = kerns
end
if traceindeed then
for otherunicode, kern in next, data do
if not kerns[otherunicode] and kern ~= 0 then
kerns[otherunicode] = kern
report_kern(feature,sequence,descriptions,unicode,otherunicode,kern)
end
end
else
for otherunicode, kern in next, data do
if not kerns[otherunicode] and kern ~= 0 then
kerns[otherunicode] = kern
end
end
end
end
else
for unicode, data in next, steps[i].coverage do
local character = characters[unicode]
local kerns = character.kerns
for otherunicode, kern in next, data do
if not kern[2] and not (kerns and kerns[otherunicode]) then
local kern = kern[1]
if kern[1] ~= 0 or kern[2] ~= 0 or kern[4] ~= 0 then
-- a complex pair not suitable for basemode
else
kern = kern[3]
if kern ~= 0 then
if kerns then
kerns[otherunicode] = kern
else
kerns = { [otherunicode] = kern }
character.kerns = kerns
end
if traceindeed then
report_kern(feature,sequence,descriptions,unicode,otherunicode,kern)
end
end
end
end
end
end
end
end
end
end
end
local function initializehashes(tfmdata)
-- already done
end
local function featuresinitializer(tfmdata,value)
if true then -- value then
local starttime = trace_preparing and os.clock()
local features = tfmdata.shared.features
local fullname = tfmdata.properties.fullname or "?"
if features then
initializehashes(tfmdata)
local collectlookups = otf.collectlookups
local rawdata = tfmdata.shared.rawdata
local properties = tfmdata.properties
local script = properties.script
local language = properties.language
local rawresources = rawdata.resources
local rawfeatures = rawresources and rawresources.features
local basesubstitutions = rawfeatures and rawfeatures.gsub
local basepositionings = rawfeatures and rawfeatures.gpos
--
if basesubstitutions or basepositionings then
local sequences = tfmdata.resources.sequences
for s=1,#sequences do
local sequence = sequences[s]
local sfeatures = sequence.features
if sfeatures then
local order = sequence.order
if order then
for i=1,#order do --
local feature = order[i]
local value = features[feature]
if value then
local validlookups, lookuplist = collectlookups(rawdata,feature,script,language)
if not validlookups then
-- skip
elseif basesubstitutions and basesubstitutions[feature] then
if trace_preparing then
report_prepare("filtering base %s feature %a for %a with value %a","sub",feature,fullname,value)
end
preparesubstitutions(tfmdata,feature,value,validlookups,lookuplist)
registerbasefeature(feature,value)
elseif basepositionings and basepositionings[feature] then
if trace_preparing then
report_prepare("filtering base %a feature %a for %a with value %a","pos",feature,fullname,value)
end
preparepositionings(tfmdata,feature,value,validlookups,lookuplist)
registerbasefeature(feature,value)
end
end
end
end
end
end
end
--
registerbasehash(tfmdata)
end
if trace_preparing then
report_prepare("preparation time is %0.3f seconds for %a",os.clock()-starttime,fullname)
end
end
end
registerotffeature {
name = "features",
description = "features",
default = true,
initializers = {
-- position = 1, -- after setscript (temp hack ... we need to force script / language to 1
base = featuresinitializer,
}
}
otf.basemodeinitializer = featuresinitializer
|
