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|
-----------------------------------------------------------------------
-- FILE: luaotfload-harf-define.lua
-- DESCRIPTION: part of luaotfload / HarfBuzz / font definition
-----------------------------------------------------------------------
do -- block to avoid to many local variables error
local ProvidesLuaModule = {
name = "luaotfload-harf-define",
version = "3.11", --TAGVERSION
date = "2019-11-10", --TAGDATE
description = "luaotfload submodule / database",
license = "GPL v2.0",
author = "Khaled Hosny, Marcel Krüger",
copyright = "Luaotfload Development Team",
}
if luatexbase and luatexbase.provides_module then
luatexbase.provides_module (ProvidesLuaModule)
end
end
local stringlower = string.lower
local stringupper = string.upper
local gsub = string.gsub
local hb = luaotfload.harfbuzz
local scriptlang_to_harfbuzz = require'luaotfload-scripts'.to_harfbuzz
local hbfonts = {}
local cfftag = hb.Tag.new("CFF ")
local cff2tag = hb.Tag.new("CFF2")
local os2tag = hb.Tag.new("OS/2")
local posttag = hb.Tag.new("post")
local glyftag = hb.Tag.new("glyf")
local invalid_l = hb.Language.new()
local invalid_s = hb.Script.new()
local containers = luaotfload.fontloader.containers
local hbcacheversion = 1.0
local facecache = containers.define("fonts", "hb", hbcacheversion, true)
local function loadfont(spec)
local path, sub = spec.resolved, spec.sub or 1
local key = string.format("%s:%d", gsub(path, "[/\\]", ":"), sub)
local attributes = lfs.attributes(path)
local size, date = attributes.size or 0, attributes.modification or 0
local cached = containers.read(facecache, key)
local iscached = cached and cached.date == date and cached.size == size
local hbface = iscached and cached.face or hb.Face.new(path, sub - 1)
local tags = hbface and hbface:get_table_tags()
-- If the face has no table tags then it isn’t a valid SFNT font that
-- HarfBuzz can handle.
if not tags then return end
local hbfont = iscached and cached.font or hb.Font.new(hbface)
if not iscached then
local upem = hbface:get_upem()
-- The engine seems to use the font type to tell whether there is a CFF
-- table or not, so we check for that here.
local fonttype = nil
local hasos2 = false
local haspost = false
for i = 1, #tags do
local tag = tags[i]
if tag == cfftag or tag == cff2tag then
fonttype = "opentype"
elseif tag == glyftag then
fonttype = "truetype"
elseif tag == os2tag then
hasos2 = true
elseif tag == posttag then
haspost = true
end
end
local fontextents = hbfont:get_h_extents()
local ascender = fontextents and fontextents.ascender or upem * .8
local descender = fontextents and fontextents.descender or upem * .2
local gid = hbfont:get_nominal_glyph(0x0020)
local space = gid and hbfont:get_glyph_h_advance(gid) or upem / 2
local slant = 0
if haspost then
local post = hbface:get_table(posttag)
local length = post:get_length()
local data = post:get_data()
if length >= 32 and string.unpack(">i4", data) <= 0x00030000 then
local italicangle = string.unpack(">i4", data, 5) / 2^16
if italicangle ~= 0 then
slant = -math.tan(italicangle * math.pi / 180) * 65536.0
end
end
end
-- Load glyph metrics for all glyphs in the font. We used to do this on
-- demand to make loading fonts faster, but hit many limitations inside
-- the engine (mainly with shared backend fonts, where the engine would
-- assume all fonts it decides to share load the same set of glyphs).
--
-- Getting glyph advances is fast enough, but glyph extents are slower
-- especially in CFF fonts. We might want to have an option to ignore exact
-- glyph extents and use font ascender and descender if this proved to be
-- too slow.
local glyphcount = hbface:get_glyph_count()
local glyphs = {}
for gid = 0, glyphcount - 1 do
local width = hbfont:get_glyph_h_advance(gid)
local height, depth, italic = nil, nil, nil
local extents = hbfont:get_glyph_extents(gid)
if extents then
height = extents.y_bearing
depth = extents.y_bearing + extents.height
if extents.x_bearing < 0 then
italic = -extents.x_bearing
end
end
glyphs[gid] = {
width = width,
height = height or ascender,
depth = -(depth or descender),
italic = italic or 0,
}
end
local unicodes = hbface:collect_unicodes()
local characters = {}
local nominals = {}
for _, uni in next, unicodes do
local glyph = hbfont:get_nominal_glyph(uni)
if glyph then
characters[uni] = glyph
nominals[glyph] = uni
end
end
local xheight, capheight = 0, 0
if hasos2 then
local os2 = hbface:get_table(os2tag)
local length = os2:get_length()
local data = os2:get_data()
if length >= 96 and string.unpack(">H", data) > 1 then
-- We don’t need much of the table, so we read from hard-coded offsets.
xheight = string.unpack(">H", data, 87)
capheight = string.unpack(">H", data, 89)
end
end
if xheight == 0 then
local gid = characters[120] -- x
if gid then
xheight = glyphs[gid].height
else
xheight = ascender / 2
end
end
if capheight == 0 then
local gid = characters[88] -- X
if gid then
capheight = glyphs[gid].height
else
capheight = ascender
end
end
cached = {
date = date,
size = size,
gid_offset = 0x120000,
upem = upem,
fonttype = fonttype,
space = space,
xheight = xheight,
capheight = capheight,
slant = slant,
glyphs = glyphs,
nominals = nominals,
unicodes = characters,
psname = hbface:get_name(hb.ot.NAME_ID_POSTSCRIPT_NAME),
fullname = hbface:get_name(hb.ot.NAME_ID_FULL_NAME),
haspng = hbface:ot_color_has_png(),
loaded = {}, -- Cached loaded glyph data.
}
containers.write(facecache, key, cached)
end
cached.face = hbface
cached.font = hbfont
return cached
end
-- Drop illegal characters from PS Name, per the spec
-- https://docs.microsoft.com/en-us/typography/opentype/spec/name#nid6
local function sanitize(psname)
return psname:gsub('[][\0-\32\127-\255(){}<>/%%]', '-')
end
-- Ligatures. The value is a character "ligature" table as described in the
-- manual.
local tlig ={
[0x2013] = { [0x002D] = { char = 0x2014 } }, -- [---]
[0x002D] = { [0x002D] = { char = 0x2013 } }, -- [--]
[0x0060] = { [0x0060] = { char = 0x201C } }, -- [``]
[0x0027] = { [0x0027] = { char = 0x201D } }, -- ['']
[0x0021] = { [0x0060] = { char = 0x00A1 } }, -- [!`]
[0x003F] = { [0x0060] = { char = 0x00BF } }, -- [?`]
[0x002C] = { [0x002C] = { char = 0x201E } }, -- [,,]
[0x003C] = { [0x003C] = { char = 0x00AB } }, -- [<<]
[0x003E] = { [0x003E] = { char = 0x00BB } }, -- [>>]
}
local function scalefont(data, spec)
local size = spec.size
local features = spec.features.normal
features.mode = 'plug'
features.features = 'harf'
fonts.constructors.checkedfeatures("otf", features)
local hbface = data.face
local hbfont = data.font
local upem = data.upem
local space = data.space
local gid_offset = data.gid_offset
if size < 0 then
size = -655.36 * size
end
-- We shape in font units (at UPEM) and then scale output with the desired
-- sfont size.
local scale = size / upem
hbfont:set_scale(upem, upem)
-- Populate font’s characters table.
local glyphs = data.glyphs
local characters = {}
for gid, glyph in next, glyphs do
characters[gid_offset + gid] = {
index = gid,
width = glyph.width * scale,
height = glyph.height * scale,
depth = glyph.depth * scale,
italic = glyph.italic * scale,
}
end
local unicodes = data.unicodes
for uni, gid in next, unicodes do
characters[uni] = characters[gid_offset + gid]
end
-- Select font palette, we support `palette=index` option, and load the first
-- one otherwise.
local paletteidx = tonumber(features.palette or features.colr) or 1
-- Load CPAL palette from the font.
local palette = nil
if hbface:ot_color_has_palettes() and hbface:ot_color_has_layers() then
local count = hbface:ot_color_palette_get_count()
if paletteidx <= count then
palette = hbface:ot_color_palette_get_colors(paletteidx)
end
end
local letterspace = 0
if features.letterspace then
letterspace = tonumber(features.letterspace) / 100 * upem
elseif features.kernfactor then
letterspace = tonumber(features.kernfactor) * upem
end
space = space + letterspace
local slantfactor = nil
if features.slant then
slantfactor = tonumber(features.slant) * 1000
end
local mode = nil
local width = nil
if features.embolden then
mode = 2
-- The multiplication by 7200.0/7227 is to undo the opposite conversion
-- the engine is doing and make the final number written in the PDF file
-- match XeTeX’s.
width = (size * tonumber(features.embolden) / 6553.6) * (7200.0/7227)
end
local hscale = upem
local extendfactor = nil
if features.extend then
extendfactor = tonumber(features.extend) * 1000
hscale = hscale * tonumber(features.extend)
end
local vscale = upem
local squeezefactor = nil
if features.squeeze then
squeezefactor = tonumber(features.squeeze) * 1000
vscale = vscale * tonumber(features.squeeze)
end
if features.tlig then
for char in next, characters do
local ligatures = tlig[char]
if ligatures then
characters[char].ligatures = ligatures
end
end
end
local tfmdata = {
name = spec.specification,
filename = spec.resolved,
subfont = spec.sub or 1,
designsize = size,
psname = sanitize(data.psname),
fullname = data.fullname,
index = spec.index,
size = size,
units_per_em = upem,
embedding = "subset",
tounicode = 1,
nomath = true,
format = data.fonttype,
slant = slantfactor,
mode = mode,
width = width,
extend = extendfactor,
squeeze = squeezefactor,
characters = characters,
parameters = {
slant = data.slant,
space = space * scale,
space_stretch = space * scale / 2,
space_shrink = space * scale / 3,
x_height = data.xheight * scale,
quad = size,
extra_space = space * scale / 3,
[8] = data.capheight * scale, -- for XeTeX compatibility.
},
hb = {
scale = scale,
spec = spec,
palette = palette,
shared = data,
letterspace = letterspace,
hscale = hscale,
vscale = vscale,
},
specification = spec,
shared = {},
properties = {},
}
tfmdata.shared.processes = fonts.handlers.otf.setfeatures(tfmdata, features)
return tfmdata
end
-- Register a reader for `harf` mode (`mode=harf` font option) so that we only
-- load fonts when explicitly requested. Fonts we load will be shaped by the
-- harf plugin in luaotfload-harf-plug.
fonts.readers.harf = function(spec)
if not spec.resolved then return end
local rawfeatures = spec.features.raw
local hb_features = {}
spec.hb_features = hb_features
if rawfeatures.script then
local script = stringlower(rawfeatures.script)
if script == "dflt" then -- Probably a noop, HarfBuzz normalizes anyway
script = "DFLT"
end
local language = stringupper(rawfeatures.language or 'dflt')
language = language == "DFLT" and "dflt" or language
local hb_script, hb_lang = scriptlang_to_harfbuzz(script, language)
spec.script, spec.language = hb.Script.new(hb_script), hb.Language.new(hb_lang)
elseif rawfeatures.language then
local language = stringupper(rawfeatures.language)
spec.language = hb.Language.new(language == "DFLT" and "dflt"
or language)
spec.script = invalid_s
else
spec.script = invalid_s
spec.language = invalid_l
end
for key, val in next, rawfeatures do
if key:len() == 4 then
-- 4-letter options are likely font features, but not always, so we do
-- some checks below. Other options will be queried
-- from spec.features.normal.
if val == true or val == false then
val = (val and '+' or '-')..key
hb_features[#hb_features + 1] = hb.Feature.new(val)
elseif tonumber(val) then
val = '+'..key..'='..tonumber(val) - 1
hb_features[#hb_features + 1] = hb.Feature.new(val)
end
end
end
return scalefont(loadfont(spec), spec)
end
|