if not modules then modules = { } end modules ['font-def'] = {
version = 1.001,
comment = "companion to font-ini.tex",
author = "Hans Hagen, PRAGMA-ADE, Hasselt NL",
copyright = "PRAGMA ADE / ConTeXt Development Team",
license = "see context related readme files"
}
local format, concat, gmatch, match, find, lower = string.format, table.concat, string.gmatch, string.match, string.find, string.lower
local tostring, next = tostring, next
local trace_defining = false trackers.register("fonts.defining", function(v) trace_defining = v end)
trackers.register("fonts.loading", "fonts.defining", "otf.loading", "afm.loading", "tfm.loading")
trackers.register("fonts.all", "fonts.*", "otf.*", "afm.*", "tfm.*")
--[[ldx--
Here we deal with defining fonts. We do so by intercepting the
default loader that only handles .
--ldx]]--
fonts = fonts or { }
fonts.define = fonts.define or { }
fonts.tfm = fonts.tfm or { }
fonts.ids = fonts.ids or { }
fonts.vf = fonts.vf or { }
fonts.used = fonts.used or { }
local tfm = fonts.tfm
local vf = fonts.vf
local define = fonts.define
tfm.version = 1.01
tfm.cache = containers.define("fonts", "tfm", tfm.version, false) -- better in font-tfm
define.method = "afm or tfm" -- afm, tfm, afm or tfm, tfm or afm
define.specify = fonts.define.specify or { }
define.methods = fonts.define.methods or { }
tfm.fonts = tfm.fonts or { }
tfm.readers = tfm.readers or { }
tfm.internalized = tfm.internalized or { } -- internal tex numbers
tfm.readers.sequence = { 'otf', 'ttf', 'afm', 'tfm' }
local readers = tfm.readers
local sequence = readers.sequence
--[[ldx--
We hardly gain anything when we cache the final (pre scaled)
table. But it can be handy for debugging.
--ldx]]--
fonts.version = 1.05
fonts.cache = containers.define("fonts", "def", fonts.version, false)
--[[ldx--
We can prefix a font specification by name: or
file:. The first case will result in a lookup in the
synonym table.
[ name: | file: ] identifier [ separator [ specification ] ]
The following function split the font specification into components
and prepares a table that will move along as we proceed.
--ldx]]--
-- beware, we discard additional specs
--
-- method:name method:name(sub) method:name(sub)*spec method:name*spec
-- name name(sub) name(sub)*spec name*spec
-- name@spec*oeps
local splitter, specifiers = nil, ""
function define.add_specifier(symbol)
specifiers = specifiers .. symbol
local left = lpeg.P("(")
local right = lpeg.P(")")
local colon = lpeg.P(":")
local method = lpeg.S(specifiers)
local lookup = lpeg.C(lpeg.P("file")+lpeg.P("name")) * colon -- hard test, else problems with : method
local sub = left * lpeg.C(lpeg.P(1-left-right-method)^1) * right
--~ local specification = lpeg.C(method) * lpeg.C(lpeg.P(1-method)^1)
local specification = lpeg.C(method) * lpeg.C(lpeg.P(1)^1)
local name = lpeg.C((1-sub-specification)^1)
splitter = lpeg.P((lookup + lpeg.Cc("")) * name * (sub + lpeg.Cc("")) * (specification + lpeg.Cc("")))
end
function define.get_specification(str)
return splitter:match(str)
end
function define.register_split(symbol,action)
define.add_specifier(symbol)
define.specify[symbol] = action
end
function define.makespecification(specification, lookup, name, sub, method, detail, size)
size = size or 655360
if trace_defining then
logs.report("define font","%s -> lookup: %s, name: %s, sub: %s, method: %s, detail: %s",
specification, (lookup ~= "" and lookup) or "[file]", (name ~= "" and name) or "-",
(sub ~= "" and sub) or "-", (method ~= "" and method) or "-", (detail ~= "" and detail) or "-")
end
--~ if specification.lookup then
--~ lookup = specification.lookup -- can come from xetex [] syntax
--~ specification.lookup = nil
--~ end
if lookup ~= 'name' then -- for the moment only two lookups, maybe some day also system:
lookup = 'file'
end
local t = {
lookup = lookup, -- forced type
specification = specification, -- full specification
size = size, -- size in scaled points or -1000*n
name = name, -- font or filename
sub = sub, -- subfont (eg in ttc)
method = method, -- specification method
detail = detail, -- specification
resolved = "", -- resolved font name
forced = "", -- forced loader
features = { }, -- preprocessed features
}
return t
end
function define.analyze(specification, size)
-- can be optimized with locals
local lookup, name, sub, method, detail = define.get_specification(specification or "")
return define.makespecification(specification,lookup, name, sub, method, detail, size)
end
--[[ldx--
A unique hash value is generated by:
--ldx]]--
local sortedhashkeys = table.sortedhashkeys
function tfm.hash_features(specification)
local features = specification.features
if features then
local t = { }
local normal = features.normal
if normal and next(normal) then
local f = sortedhashkeys(normal)
for i=1,#f do
local v = f[i]
if v ~= "number" and v ~= "features" then -- i need to figure this out, features
t[#t+1] = v .. '=' .. tostring(normal[v])
end
end
end
local vtf = features.vtf
if vtf and next(vtf) then
local f = sortedhashkeys(vtf)
for i=1,#f do
local v = f[i]
t[#t+1] = v .. '=' .. tostring(vtf[v])
end
end
--~ if specification.mathsize then
--~ t[#t+1] = "mathsize=" .. specification.mathsize
--~ end
if #t > 0 then
return concat(t,"+")
end
end
return "unknown"
end
fonts.designsizes = { }
--[[ldx--
In principle we can share tfm tables when we are in node for a font, but then
we need to define a font switch as an id/attr switch which is no fun, so in that
case users can best use dynamic features ... so, we will not use that speedup. Okay,
when we get rid of base mode we can optimize even further by sharing, but then we
loose our testcases for .
--ldx]]--
function tfm.hash_instance(specification,force)
local hash, size, fallbacks = specification.hash, specification.size, specification.fallbacks
if force or not hash then
hash = tfm.hash_features(specification)
specification.hash = hash
end
if size < 1000 and fonts.designsizes[hash] then
size = math.round(tfm.scaled(size, fonts.designsizes[hash]))
specification.size = size
end
--~ local mathsize = specification.mathsize or 0
--~ if mathsize > 0 then
--~ local textsize = specification.textsize
--~ if fallbacks then
--~ return hash .. ' @ ' .. tostring(size) .. ' [ ' .. tostring(mathsize) .. ' : ' .. tostring(textsize) .. ' ] @ ' .. fallbacks
--~ else
--~ return hash .. ' @ ' .. tostring(size) .. ' [ ' .. tostring(mathsize) .. ' : ' .. tostring(textsize) .. ' ]'
--~ end
--~ else
if fallbacks then
return hash .. ' @ ' .. tostring(size) .. ' @ ' .. fallbacks
else
return hash .. ' @ ' .. tostring(size)
end
--~ end
end
--[[ldx--
We can resolve the filename using the next function:
--ldx]]--
function define.resolve(specification)
if not specification.resolved or specification.resolved == "" then -- resolved itself not per se in mapping hash
if specification.lookup == 'name' then
specification.resolved, specification.sub = fonts.names.resolve(specification.name,specification.sub)
if specification.resolved then
specification.forced = file.extname(specification.resolved)
specification.name = file.removesuffix(specification.resolved)
end
elseif specification.lookup == 'file' then
specification.forced = file.extname(specification.name)
specification.name = file.removesuffix(specification.name)
end
end
if specification.forced == "" then
specification.forced = nil
else
specification.forced = specification.forced
end
--~ specification.hash = specification.name .. ' @ ' .. tfm.hash_features(specification)
specification.hash = lower(specification.name .. ' @ ' .. tfm.hash_features(specification))
if specification.sub and specification.sub ~= "" then
specification.hash = specification.sub .. ' @ ' .. specification.hash
end
return specification
end
--[[ldx--
The main read function either uses a forced reader (as determined by
a lookup) or tries to resolve the name using the list of readers.
We need to cache when possible. We do cache raw tfm data (from , or ). After that we can cache based
on specificstion (name) and size, that is, only needs a number
for an already loaded fonts. However, it may make sense to cache fonts
before they're scaled as well (store 's with applied methods
and features). However, there may be a relation between the size and
features (esp in virtual fonts) so let's not do that now.
Watch out, here we do load a font, but we don't prepare the
specification yet.
--ldx]]--
function tfm.read(specification)
local hash = tfm.hash_instance(specification)
local tfmtable = tfm.fonts[hash] -- hashes by size !
if not tfmtable then
local forced = specification.forced or ""
if forced ~= "" then
tfmtable = readers[lower(forced)](specification)
if not tfmtable then
logs.report("define font","forced type %s of %s not found",forced,specification.name)
end
else
for s=1,#sequence do -- reader sequence
local reader = sequence[s]
if readers[reader] then -- not really needed
if trace_defining then
logs.report("define font","trying type %s for %s with file %s",reader,specification.name,specification.filename or "unknown")
end
tfmtable = readers[reader](specification)
if tfmtable then break end
end
end
end
if tfmtable then
if tfmtable.filename and fonts.dontembed[tfmtable.filename] then
tfmtable.embedding = "no"
else
tfmtable.embedding = "subset"
end
tfm.fonts[hash] = tfmtable
fonts.designsizes[specification.hash] = tfmtable.designsize -- we only know this for sure after loading once
--~ tfmtable.mode = specification.features.normal.mode or "base"
end
end
if not tfmtable then
logs.report("define font","font with name %s is not found",specification.name)
end
return tfmtable
end
--[[ldx--
For virtual fonts we need a slightly different approach:
--ldx]]--
function tfm.read_and_define(name,size) -- no id
local specification = define.analyze(name,size)
local method = specification.method
if method and define.specify[method] then
specification = define.specify[method](specification)
end
specification = define.resolve(specification)
local hash = tfm.hash_instance(specification)
local id = define.registered(hash)
if not id then
local fontdata = tfm.read(specification)
if fontdata then
fontdata.hash = hash
id = font.define(fontdata)
define.register(fontdata,id)
tfm.cleanup_table(fontdata)
else
id = 0 -- signal
end
end
return fonts.ids[id], id
end
--[[ldx--
Next follow the readers. This code was written while
evolved. Each one has its own way of dealing with its format.
--ldx]]--
local function check_tfm(specification,fullname)
-- ofm directive blocks local path search unless set
fullname = resolvers.findbinfile(fullname, 'tfm') or "" -- just to be sure
if fullname ~= "" then
specification.filename, specification.format = fullname, "ofm"
return tfm.read_from_tfm(specification)
end
end
local function check_afm(specification,fullname)
fullname = resolvers.findbinfile(fullname, 'afm') or "" -- just to be sure
if fullname ~= "" then
specification.filename, specification.format = fullname, "afm"
return tfm.read_from_afm(specification)
end
end
function readers.tfm(specification)
local fullname, tfmtable = specification.filename or "", nil
if fullname == "" then
local forced = specification.forced or ""
if forced ~= "" then
tfmtable = check_tfm(specification,specification.name .. "." .. forced)
end
if not tfmtable then
tfmtable = check_tfm(specification,specification.name)
end
else
tfmtable = check_tfm(specification,fullname)
end
return tfmtable
end
function readers.afm(specification,method)
local fullname, tfmtable = specification.filename or "", nil
if fullname == "" then
local forced = specification.forced or ""
if forced ~= "" then
tfmtable = check_afm(specification,specification.name .. "." .. forced)
end
if not tfmtable then
method = method or define.method or "afm or tfm"
if method == "tfm" then
tfmtable = check_tfm(specification,specification.name)
elseif method == "afm" then
tfmtable = check_afm(specification,specification.name)
elseif method == "tfm or afm" then
tfmtable = check_tfm(specification,specification.name) or check_afm(specification,specification.name)
else -- method == "afm or tfm" or method == "" then
tfmtable = check_afm(specification,specification.name) or check_tfm(specification,specification.name)
end
end
else
tfmtable = check_afm(specification,fullname)
end
return tfmtable
end
local function check_otf(specification,suffix,what)
local fullname, tfmtable = resolvers.findbinfile(specification.name,suffix) or "", nil
if fullname == "" then
local fb = fonts.names.old_to_new[specification.name]
if fb then
fullname = resolvers.findbinfile(fb,suffix) or ""
end
end
if fullname == "" then
local fb = fonts.names.new_to_old[specification.name]
if fb then
fullname = resolvers.findbinfile(fb,suffix) or ""
end
end
if fullname ~= "" then
specification.filename, specification.format = fullname, what -- hm, so we do set the filename, then
tfmtable = tfm.read_from_open_type(specification) -- we need to do it for all matches / todo
end
return tfmtable
end
function readers.opentype(specification,suffix,what)
local forced = specification.forced or ""
if forced == "otf" then
return check_otf(specification,forced,"opentype")
elseif forced == "ttf" then
return check_otf(specification,forced,"truetype")
elseif forced == "ttf" then
return check_otf(specification,forced,"truetype")
else
return check_otf(specification,suffix,what)
end
end
function readers.otf(specification) return readers.opentype(specification,"otf","opentype") end
function readers.ttf(specification) return readers.opentype(specification,"ttf","truetype") end
function readers.ttc(specification) return readers.opentype(specification,"ttf","truetype") end -- !!
--[[ldx--
We need to check for default features. For this we provide
a helper function.
--ldx]]--
function define.check(features,defaults) -- nb adapts features !
local done = false
if table.is_empty(features) then
features, done = table.fastcopy(defaults), true
else
for k,v in next, defaults do
if features[k] == nil then
features[k], done = v, true
end
end
end
return features, done -- done signals a change
end
--[[ldx--
So far the specifyers. Now comes the real definer. Here we cache
based on id's. Here we also intercept the virtual font handler. Since
it evolved stepwise I may rewrite this bit (combine code).
In the previously defined reader (the one resulting in a
table) we cached the (scaled) instances. Here we cache them again, but
this time based on id. We could combine this in one cache but this does
not gain much. By the way, passing id's back to in the callback was
introduced later in the development.
--ldx]]--
define.last = nil
function define.register(fontdata,id)
if fontdata and id then
local hash = fontdata.hash
if not tfm.internalized[hash] then
if trace_defining then
logs.report("define font","loading at 2 id %s, hash: %s",id or "?",hash or "?")
end
fonts.ids[id] = fontdata
tfm.internalized[hash] = id
end
end
end
function define.registered(hash)
local id = tfm.internalized[hash]
return id, id and fonts.ids[id]
end
local cache_them = false
function tfm.make(specification)
-- currently fonts are scaled while constructing the font, so we
-- have to do scaling of commands in the vf at that point using
-- e.g. "local scale = g.factor or 1" after all, we need to work
-- with copies anyway and scaling needs to be done at some point;
-- however, when virtual tricks are used as feature (makes more
-- sense) we scale the commands in fonts.tfm.scale (and set the
-- factor there)
local fvm = define.methods[specification.features.vtf.preset]
if fvm then
return fvm(specification)
else
return nil
end
end
function define.read(specification,size,id) -- id can be optional, name can already be table
statistics.starttiming(fonts)
if type(specification) == "string" then
specification = define.analyze(specification,size)
end
local method = specification.method
if method and define.specify[method] then
specification = define.specify[method](specification)
end
specification = define.resolve(specification)
local hash = tfm.hash_instance(specification)
if cache_them then
local fontdata = containers.read(fonts.cache(),hash) -- for tracing purposes
end
local fontdata = define.registered(hash) -- id
if not fontdata then
if specification.features.vtf and specification.features.vtf.preset then
fontdata = tfm.make(specification)
else
fontdata = tfm.read(specification)
if fontdata then
tfm.check_virtual_id(fontdata)
end
end
if cache_them then
fontdata = containers.write(fonts.cache(),hash,fontdata) -- for tracing purposes
end
if fontdata then
fontdata.hash = hash
fontdata.cache = "no"
if id then
define.register(fontdata,id)
end
end
end
define.last = fontdata or id -- todo ! ! ! ! !
if not fontdata then
logs.report("define font", "unknown font %s, loading aborted",specification.name)
elseif trace_defining and type(fontdata) == "table" then
logs.report("define font","using %s font with id %s, n:%s s:%s b:%s e:%s p:%s f:%s",
fontdata.type or "unknown",
id or "?",
fontdata.name or "?",
fontdata.size or "default",
fontdata.encodingbytes or "?",
fontdata.encodingname or "unicode",
fontdata.fullname or "?",
file.basename(fontdata.filename or "?"))
end
statistics.stoptiming(fonts)
return fontdata
end
function vf.find(name)
name = file.removesuffix(file.basename(name))
if tfm.resolve_vf then
local format = fonts.logger.format(name)
if format == 'tfm' or format == 'ofm' then
if trace_defining then
logs.report("define font","locating vf for %s",name)
end
return resolvers.findbinfile(name,"ovf")
else
if trace_defining then
logs.report("define font","vf for %s is already taken care of",name)
end
return nil -- ""
end
else
if trace_defining then
logs.report("define font","locating vf for %s",name)
end
return resolvers.findbinfile(name,"ovf")
end
end
--[[ldx--
We overload both the and readers.
--ldx]]--
callback.register('define_font' , define.read)
callback.register('find_vf_file', vf.find ) -- not that relevant any more