public PDFType0Font(PDFDocument document, string idName, byte[] fontData, bool vertical) : base(document) { Elements.SetName(Keys.Type, "/Font"); Elements.SetName(Keys.Subtype, "/Type0"); Elements.SetName(Keys.Encoding, vertical ? "/Identity-V" : "/Identity-H"); OpenTypeDescriptor ttDescriptor = (OpenTypeDescriptor)FontDescriptorCache.GetOrCreateDescriptor(idName, fontData); FontDescriptor = new PDFFontDescriptor(document, ttDescriptor); FontOptions = new XPDFFontOptions(PDFFontEncoding.Unicode); Debug.Assert(FontOptions != null); _cmapInfo = new CMapInfo(ttDescriptor); DescendantFont = new PDFCIDFont(document, FontDescriptor, fontData) { CMapInfo = _cmapInfo }; // Create ToUnicode map _toUnicode = new PDFToUnicodeMap(document, _cmapInfo); document.Internals.AddObject(_toUnicode); Elements.Add(Keys.ToUnicode, _toUnicode); //BaseFont = ttDescriptor.FontName.Replace(" ", ""); BaseFont = ttDescriptor.FontName; // CID fonts are always embedded if (!BaseFont.Contains("+")) // HACK in PDFType0Font { BaseFont = CreateEmbeddedFontSubsetName(BaseFont); } FontDescriptor.FontName = BaseFont; DescendantFont.BaseFont = BaseFont; PDFArray descendantFonts = new PDFArray(document); Owner.IrefTable.Add(DescendantFont); descendantFonts.Elements.Add(DescendantFont.Reference); Elements[Keys.DescendantFonts] = descendantFonts; }
/// <summary> /// Creates font and enforces bold/italic simulation. /// </summary> public static XFont CreateSpecialFont(string familyName, double emSize, XFontStyle style, XPDFFontOptions pdfOptions, XStyleSimulations styleSimulations) => new XFont(familyName, emSize, style, pdfOptions, styleSimulations);
/// <summary> /// New... /// </summary> public OpenTypeDescriptor(string fontDescriptorKey, string name, XFontStyle stlye, OpenTypeFontface fontface, XPDFFontOptions options) : base(fontDescriptorKey) { FontFace = fontface; FontName = name; Initialize(); }