Difference between revisions of "Use a TrueType font"
From LuaTeXWiki
(Cleaned up the code.) |
(Corrected truetype/opentype.) |
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| Line 11: | Line 11: | ||
function(name, size) | function(name, size) | ||
local fonttype, f | local fonttype, f | ||
| − | + | local fonttype = string.match(string.lower(name), "otf$") and "opentype" | |
| − | + | or string.match(string.lower(name), "ttf$") and "truetype" | |
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
if fonttype then | if fonttype then | ||
| + | filename = kpse.find_file(name, "opentype fonts") or kpse.find_file(name, "truetype fonts") | ||
if size < 0 then | if size < 0 then | ||
size = (- 655.36) * size | size = (- 655.36) * size | ||
| Line 34: | Line 27: | ||
f.designsize = size | f.designsize = size | ||
f.size = size | f.size = size | ||
| − | direction = 0 | + | f.direction = 0 |
f.parameters.slant = 0 | f.parameters.slant = 0 | ||
f.parameters.space = size * 0.25 | f.parameters.space = size * 0.25 | ||
Revision as of 10:39, 2 October 2011
A TrueType (or Openype) font can be used without going through a TFM or an OFM file, like in XeTeX.
The best way to do so is to use the package luaotfload, on the CTAN, and developped here: http://github.com/mpg/luaotfload/
The code shows how we can use the table of a TrueType font to produce an internal TeX font table:
\pdfoutput1
\directlua{
callback.register("define_font",
function(name, size)
local fonttype, f
local fonttype = string.match(string.lower(name), "otf$") and "opentype"
or string.match(string.lower(name), "ttf$") and "truetype"
if fonttype then
filename = kpse.find_file(name, "opentype fonts") or kpse.find_file(name, "truetype fonts")
if size < 0 then
size = (- 655.36) * size
end
ttffont = fontloader.to_table(fontloader.open(filename))
if ttffont then
f = { }
f.name = ttffont.fontname
f.fullname = ttffont.names[1].names.fullname
f.parameters = { }
f.designsize = size
f.size = size
f.direction = 0
f.parameters.slant = 0
f.parameters.space = size * 0.25
f.parameters.space_stretch = 0.3 * size
f.parameters.space_shrink = 0.1 * size
f.parameters.x_height = 0.4 * size
f.parameters.quad = 1.0 * size
f.parameters.extra_space = 0
f.characters = { }
local mag = size / ttffont.units_per_em
local names_of_char = { }
for char, glyph in pairs(ttffont.map.map) do
names_of_char[ttffont.glyphs[glyph].name] = ttffont.map.backmap[glyph]
end
for char, glyph in pairs(ttffont.map.map) do
local glyph_table = ttffont.glyphs[glyph]
f.characters[char] = {
index = glyph,
width = glyph_table.width * mag,
name = glyph_table.name }
if glyph_table.boundingbox[4] then
f.characters[char].height = glyph_table.boundingbox[4] * mag
end
if glyph_table.boundingbox[2] then
f.characters[char].depth = -glyph_table.boundingbox[2] * mag
end
if glyph_table.kerns then
local kerns = { }
for _, kern in pairs(glyph_table.kerns) do
kerns[names_of_char[kern.char]] = kern.off * mag
end
f.characters[char].kerns = kerns
end
end
f.filename = filename
f.type = "real"
f.format = fonttype
f.embedding = "subset"
f.cidinfo = {
registry = "Adobe",
ordering = "Identity",
supplement = 0,
version = 1 }
end
else
f = font.read_tfm(name, size)
end
return f
end)
}
The index of the f.characters table is the Unicode value, among the properties of each entry of that table we have index which is the glyph index. Using this property we get the mapping between Unicode characters and glyphs. Kerning is handled via TeX font LKP.
What is missing in the code above is better calculation of standard TeX font parameters and OpenType features.
