private string[] MeasureString(PageText pt, Graphics g, out float[] width)
        {
            StyleInfo si = pt.SI;
            string    s  = pt.Text;

            Font         drawFont   = null;
            StringFormat drawFormat = null;
            SizeF        ms;

            string[] sa = null;
            width = null;
            try
            {
                // STYLE
                System.Drawing.FontStyle fs = 0;
                if (si.FontStyle == FontStyleEnum.Italic)
                {
                    fs |= System.Drawing.FontStyle.Italic;
                }

                // WEIGHT
                switch (si.FontWeight)
                {
                case FontWeightEnum.Bold:
                case FontWeightEnum.Bolder:
                case FontWeightEnum.W500:
                case FontWeightEnum.W600:
                case FontWeightEnum.W700:
                case FontWeightEnum.W800:
                case FontWeightEnum.W900:
                    fs |= System.Drawing.FontStyle.Bold;
                    break;

                default:
                    break;
                }

                drawFont             = new Font(StyleInfo.GetFontFamily(si.FontFamilyFull), si.FontSize, fs);
                drawFormat           = new StringFormat();
                drawFormat.Alignment = StringAlignment.Near;

                // Measure string
                //  pt.NoClip indicates that this was generated by PageTextHtml Build.  It has already word wrapped.
                if (pt.NoClip || pt.SI.WritingMode == WritingModeEnum.tb_rl)                    // TODO: support multiple lines for vertical text
                {
                    ms       = MeasureString(s, g, drawFont, drawFormat);
                    width    = new float[1];
                    width[0] = RSize.PointsFromPixels(g, ms.Width);                     // convert to points from pixels
                    sa       = new string[1];
                    sa[0]    = s;
                    return(sa);
                }

                // handle multiple lines;
                //  1) split the string into the forced line breaks (ie "\n and \r")
                //  2) foreach of the forced line breaks; break these into words and recombine
                s = s.Replace("\r\n", "\n");                    // don't want this to result in double lines
                string[]      flines     = s.Split(lineBreak);
                List <string> lines      = new List <string>();
                List <float>  lineWidths = new List <float>();
                // remove the size reserved for left and right padding
                float ptWidth = pt.W - pt.SI.PaddingLeft - pt.SI.PaddingRight;
                if (ptWidth <= 0)
                {
                    ptWidth = 1;
                }
                foreach (string tfl in flines)
                {
                    string fl;
                    if (tfl.Length > 0 && tfl[tfl.Length - 1] == ' ')
                    {
                        fl = tfl.TrimEnd(' ');
                    }
                    else
                    {
                        fl = tfl;
                    }

                    // Check if entire string fits into a line
                    ms = MeasureString(fl, g, drawFont, drawFormat);
                    float tw = RSize.PointsFromPixels(g, ms.Width);
                    if (tw <= ptWidth)
                    {                       // line fits don't need to break it down further
                        lines.Add(fl);
                        lineWidths.Add(tw);
                        continue;
                    }

                    // Line too long; need to break into multiple lines
                    // 1) break line into parts; then build up again keeping track of word positions
                    string[]         parts = fl.Split(wordBreak);               // this is the maximum split of lines
                    StringBuilder    sb    = new StringBuilder(fl.Length);
                    CharacterRange[] cra   = new CharacterRange[parts.Length];
                    for (int i = 0; i < parts.Length; i++)
                    {
                        int sc = sb.Length;        // starting character
                        sb.Append(parts[i]);       // endding character
                        if (i != parts.Length - 1) // last item doesn't need blank
                        {
                            sb.Append(" ");
                        }
                        int            ec = sb.Length;
                        CharacterRange cr = new CharacterRange(sc, ec - sc);
                        cra[i] = cr;            // add to character array
                    }

                    // 2) Measure the word locations within the line
                    string            wfl           = sb.ToString();
                    WordStartFinish[] wordLocations = MeasureString(wfl, g, drawFont, drawFormat, cra);
                    if (wordLocations == null)
                    {
                        continue;
                    }

                    // 3) Loop thru creating new lines as needed
                    int            startLoc = 0;
                    CharacterRange crs      = cra[startLoc];
                    CharacterRange cre      = cra[startLoc];
                    float          cwidth   = wordLocations[0].end;   // length of the first
                    float          bwidth   = wordLocations[0].start; // characters need a little extra on start
                    string         ts;
                    bool           bLine = true;
                    for (int i = 1; i < cra.Length; i++)
                    {
                        cwidth = wordLocations[i].end - wordLocations[startLoc].start + bwidth;
                        if (cwidth > ptWidth)
                        {                               // time for a new line
                            cre = cra[i - 1];
                            ts  = wfl.Substring(crs.First, cre.First + cre.Length - crs.First);
                            lines.Add(ts);
                            lineWidths.Add(wordLocations[i - 1].end - wordLocations[startLoc].start + bwidth);

                            // Find the first non-blank character of the next line
                            while (i < cra.Length &&
                                   cra[i].Length == 1 &&
                                   fl[cra[i].First] == ' ')
                            {
                                i++;
                            }
                            if (i < cra.Length) // any lines left?
                            {                   // yes, continue on
                                startLoc = i;
                                crs      = cre = cra[startLoc];
                                cwidth   = wordLocations[i].end - wordLocations[startLoc].start + bwidth;
                            }
                            else  // no, we can stop
                            {
                                bLine = false;
                            }
                            //  bwidth = wordLocations[startLoc].start - wordLocations[startLoc - 1].end;
                        }
                        else
                        {
                            cre = cra[i];
                        }
                    }
                    if (bLine)
                    {
                        ts = fl.Substring(crs.First, cre.First + cre.Length - crs.First);
                        lines.Add(ts);
                        lineWidths.Add(cwidth);
                    }
                }
                // create the final array from the Lists
                string[] la = lines.ToArray();
                width = lineWidths.ToArray();
                return(la);
            }
            finally
            {
                if (drawFont != null)
                {
                    drawFont.Dispose();
                }
                if (drawFormat != null)
                {
                    drawFont.Dispose();
                }
            }
        }
        private void DrawString(PageText pt, Graphics g, RectangleF r)
        {
            StyleInfo si = pt.SI;
            string    s  = pt.Text;

            Font         drawFont   = null;
            StringFormat drawFormat = null;
            Brush        drawBrush  = null;

            try
            {
                // STYLE
                System.Drawing.FontStyle fs = 0;
                if (si.FontStyle == FontStyleEnum.Italic)
                {
                    fs |= System.Drawing.FontStyle.Italic;
                }

                switch (si.TextDecoration)
                {
                case TextDecorationEnum.Underline:
                    fs |= System.Drawing.FontStyle.Underline;
                    break;

                case TextDecorationEnum.LineThrough:
                    fs |= System.Drawing.FontStyle.Strikeout;
                    break;

                case TextDecorationEnum.Overline:
                case TextDecorationEnum.None:
                    break;
                }

                // WEIGHT
                switch (si.FontWeight)
                {
                case FontWeightEnum.Bold:
                case FontWeightEnum.Bolder:
                case FontWeightEnum.W500:
                case FontWeightEnum.W600:
                case FontWeightEnum.W700:
                case FontWeightEnum.W800:
                case FontWeightEnum.W900:
                    fs |= System.Drawing.FontStyle.Bold;
                    break;

                default:
                    break;
                }
                try
                {
                    drawFont = new Font(si.GetFontFamily(), si.FontSize, fs);   // si.FontSize already in points
                }
                catch (ArgumentException)
                {
                    drawFont = new Font("Arial", si.FontSize, fs);   // if this fails we'll let the error pass thru
                }
                // ALIGNMENT
                drawFormat = new StringFormat();
                switch (si.TextAlign)
                {
                case TextAlignEnum.Right:
                    drawFormat.Alignment = StringAlignment.Far;
                    break;

                case TextAlignEnum.Center:
                    drawFormat.Alignment = StringAlignment.Center;
                    break;

                case TextAlignEnum.Left:
                default:
                    drawFormat.Alignment = StringAlignment.Near;
                    break;
                }
                if (pt.SI.WritingMode == WritingModeEnum.tb_rl)
                {
                    drawFormat.FormatFlags |= StringFormatFlags.DirectionRightToLeft;
                    drawFormat.FormatFlags |= StringFormatFlags.DirectionVertical;
                }
                switch (si.VerticalAlign)
                {
                case VerticalAlignEnum.Bottom:
                    drawFormat.LineAlignment = StringAlignment.Far;
                    break;

                case VerticalAlignEnum.Middle:
                    drawFormat.LineAlignment = StringAlignment.Center;
                    break;

                case VerticalAlignEnum.Top:
                default:
                    drawFormat.LineAlignment = StringAlignment.Near;
                    break;
                }
                // draw the background
                DrawBackground(g, r, si);

                // adjust drawing rectangle based on padding
                RectangleF r2 = new RectangleF(r.Left + si.PaddingLeft,
                                               r.Top + si.PaddingTop,
                                               r.Width - si.PaddingLeft - si.PaddingRight,
                                               r.Height - si.PaddingTop - si.PaddingBottom);

                drawBrush = new SolidBrush(si.Color);
                if (pt.NoClip)   // request not to clip text
                {
                    g.DrawString(pt.Text, drawFont, drawBrush, new PointF(r.Left, r.Top), drawFormat);
                    //HighlightString(g, pt, new RectangleF(r.Left, r.Top, float.MaxValue, float.MaxValue),drawFont, drawFormat);
                }
                else
                {
                    g.DrawString(pt.Text, drawFont, drawBrush, r2, drawFormat);
                    //HighlightString(g, pt, r2, drawFont, drawFormat);
                }
            }
            finally
            {
                if (drawFont != null)
                {
                    drawFont.Dispose();
                }
                if (drawFormat != null)
                {
                    drawFont.Dispose();
                }
                if (drawBrush != null)
                {
                    drawBrush.Dispose();
                }
            }
        }
		private SizeF MeasureString(string s, StyleInfo si, Graphics g, out float descent)
		{
			Font drawFont=null;
			StringFormat drawFormat=null;
			SizeF ms = SizeF.Empty;
			descent = 0;				
			if (s == null || s.Length == 0)
				return ms;
			try
			{
				// STYLE
				System.Drawing.FontStyle fs = 0;
				if (si.FontStyle == FontStyleEnum.Italic)
					fs |= System.Drawing.FontStyle.Italic;

				// WEIGHT
				switch (si.FontWeight)
				{
					case FontWeightEnum.Bold:
					case FontWeightEnum.Bolder:
					case FontWeightEnum.W500:
					case FontWeightEnum.W600:
					case FontWeightEnum.W700:
					case FontWeightEnum.W800:
					case FontWeightEnum.W900:
						fs |= System.Drawing.FontStyle.Bold;
						break;
					default:
						break;
				}
				try
				{
					FontFamily ff = si.GetFontFamily();
					drawFont = new Font(ff, si.FontSize, fs);
					// following algorithm comes from the C# Font Metrics documentation
					float descentPixel = si.FontSize * ff.GetCellDescent(fs) / ff.GetEmHeight(fs);
					descent = RSize.PointsFromPixels(g, descentPixel);
				}
				catch
				{
					drawFont = new Font("Arial", si.FontSize, fs);	// usually because font not found
					descent = 0;
				}
				drawFormat = new StringFormat();
				drawFormat.Alignment = StringAlignment.Near;

				CharacterRange[] cr = {new CharacterRange(0, s.Length)};
				drawFormat.SetMeasurableCharacterRanges(cr);
				Region[] rs = new Region[1];
				rs = g.MeasureCharacterRanges(s, drawFont, new RectangleF(0,0,float.MaxValue,float.MaxValue),
					drawFormat);
				RectangleF mr = rs[0].GetBounds(g);

				ms.Height = RSize.PointsFromPixels(g, mr.Height);	// convert to points from pixels
				ms.Width = RSize.PointsFromPixels(g, mr.Width);		// convert to points from pixels
				return ms;
			}
			finally
			{
				if (drawFont != null)
					drawFont.Dispose();
				if (drawFormat != null)
					drawFont.Dispose();
			}
		}
        private SizeF MeasureString(string s, StyleInfo si, Graphics g, out float descent)
        {
            Font         drawFont   = null;
            StringFormat drawFormat = null;
            SizeF        ms         = SizeF.Empty;

            descent = 0;
            if (s == null || s.Length == 0)
            {
                return(ms);
            }
            try
            {
                // STYLE
                System.Drawing.FontStyle fs = 0;
                if (si.FontStyle == FontStyleEnum.Italic)
                {
                    fs |= System.Drawing.FontStyle.Italic;
                }

                // WEIGHT
                switch (si.FontWeight)
                {
                case FontWeightEnum.Bold:
                case FontWeightEnum.Bolder:
                case FontWeightEnum.W500:
                case FontWeightEnum.W600:
                case FontWeightEnum.W700:
                case FontWeightEnum.W800:
                case FontWeightEnum.W900:
                    fs |= System.Drawing.FontStyle.Bold;
                    break;

                default:
                    break;
                }
                try
                {
                    FontFamily ff = si.GetFontFamily();
                    drawFont = new Font(ff, si.FontSize, fs);
                    // following algorithm comes from the C# Font Metrics documentation
                    float descentPixel = si.FontSize * ff.GetCellDescent(fs) / ff.GetEmHeight(fs);
                    descent = RSize.PointsFromPixels(g, descentPixel);
                }
                catch
                {
                    drawFont = new Font("Arial", si.FontSize, fs);                      // usually because font not found
                    descent  = 0;
                }
                drawFormat           = new StringFormat();
                drawFormat.Alignment = StringAlignment.Near;

                CharacterRange[] cr = { new CharacterRange(0, s.Length) };
                drawFormat.SetMeasurableCharacterRanges(cr);
                Region[] rs = new Region[1];
                rs = g.MeasureCharacterRanges(s, drawFont, new RectangleF(0, 0, float.MaxValue, float.MaxValue),
                                              drawFormat);
                RectangleF mr = rs[0].GetBounds(g);

                ms.Height = RSize.PointsFromPixels(g, mr.Height);                       // convert to points from pixels
                ms.Width  = RSize.PointsFromPixels(g, mr.Width);                        // convert to points from pixels
                return(ms);
            }
            finally
            {
                if (drawFont != null)
                {
                    drawFont.Dispose();
                }
                if (drawFormat != null)
                {
                    drawFont.Dispose();
                }
            }
        }