(* Embed a font *) open Pdfutil (* For the first stage of our embedder, we are only allowing Latin, and we don't actually subset. a) Get a list of Unicode codepoints; b) See which of them are in the glyph list; c) See which of those are in (StdEncoding|MacRomanEncoding|WinAnsiEncoding), and get their codes; d) Build a font to do just those; e) We put missing glyph or similar for any character not in the encoding (* FUTURE *) 1) Actually subset the font to save size 2) Allow characters not in the standard encodings by builing one or more secondary subsets *) (*let () = iter (fun u -> Printf.printf "unicode %i --> " u; let glyphname = Hashtbl.find glyphlist_table [u] in Printf.printf "glyph name %s --> " glyphname; let pdfcode = Hashtbl.find encoding_table glyphname in Printf.printf "pdf code %i\n" pdfcode) unicodepoints *) let pdfcode_of_unicode_codepoint encoding_table glyphlist_table u = try Some (Hashtbl.find encoding_table (Hashtbl.find glyphlist_table [u])) with Not_found -> None let calc_accepted_unicodepoints encoding_table glyphlist_table codepoints = setify (option_map (fun u -> match pdfcode_of_unicode_codepoint encoding_table glyphlist_table u with | Some _ -> Some u | None -> None) codepoints) let fontnum = ref 0 let basename () = incr fontnum; "AAAAA" ^ string_of_char (char_of_int (!fontnum + 65)) let embed_truetype pdf ~fontfile ~fontname ~codepoints ~encoding = let glyphlist_table = Pdfglyphlist.reverse_glyph_hashes () in let encoding_table = Pdftext.reverse_table_of_encoding encoding in let accepted_unicodepoints = map (fun u -> (u, pdfcode_of_unicode_codepoint encoding_table glyphlist_table u)) (calc_accepted_unicodepoints encoding_table glyphlist_table codepoints) in let f = Cpdftruetype.parse ~subset:accepted_unicodepoints fontfile ~encoding in let name_1 = basename () in let fontfile = let len = Pdfio.bytes_size fontfile in Pdf.Stream {contents = (Pdf.Dictionary [("/Length", Pdf.Integer len); ("/Length1", Pdf.Integer len)], Pdf.Got fontfile)} in let fontfile_num = Pdf.addobj pdf fontfile in let module TT = Cpdftruetype in let open Pdftext in let fontmetrics = let a = Array.make 256 0. in for x = f.TT.firstchar to f.TT.lastchar do a.(x) <- float_of_int (f.TT.widths.(x - f.TT.firstchar)) done; a in SimpleFont {fonttype = Truetype; basefont = Printf.sprintf "/%s+%s" name_1 fontname; fontmetrics = Some fontmetrics; firstchar = f.TT.firstchar; lastchar = f.TT.lastchar; widths = f.TT.widths; fontdescriptor = Some {ascent = float_of_int f.TT.ascent; descent = float_of_int f.TT.descent; avgwidth = float_of_int f.TT.avgwidth; maxwidth = float_of_int f.TT.maxwidth; flags = f.TT.flags; italicangle = float_of_int f.TT.italicangle; capheight = float_of_int f.TT.capheight; xheight = float_of_int f.TT.xheight; stemv = float_of_int f.TT.stemv; fontbbox = (float_of_int f.TT.minx, float_of_int f.TT.miny, float_of_int f.TT.maxx, float_of_int f.TT.maxy); fontfile = Some (FontFile2 fontfile_num); charset = None; tounicode = None}; encoding}