// This code is part of GrapeCity Documents for Imaging samples.
// Copyright (c) GrapeCity, Inc. All rights reserved.
using System;
using System.IO;
using System.Drawing;
using GrapeCity.Documents.Imaging;
using GrapeCity.Documents.Text;
using GrapeCity.Documents.Drawing;

namespace GcImagingWeb.Samples
    // Demonstrates the basics of rendering text in GcImaging.
    // The two main approaches are:
    // - using the MeasureString/DrawString pair, or
    // - using the TextLayout directly.
    // While the first approach may be easier in simple cases,
    // the second approach (using TextLayout) is much more powerful
    // and generally speaking yields better performance.
    // Please read the comments in code below for more details.
    public class TextRendering
        public GcBitmap GenerateImage(Size pixelSize, float dpi, bool opaque, string[] sampleParams = null)
            var bmp = new GcBitmap(pixelSize.Width, pixelSize.Height, true, dpi, dpi);
            var Inch = dpi;
            const float fontSize = 14;
            using (var g = bmp.CreateGraphics(Color.White))
                // TextFormat class is used throughout all GcImaging text rendering to specify
                // font and other character formatting:
                var tf = new TextFormat()
                    Font = Font.FromFile(Path.Combine("Resources", "Fonts", "times.ttf")),
                    FontSize = fontSize

                // 1.
                // The easiest way to render a short string on a page at an arbitrary location,
                // when you are 100% sure that the string will fit in the available space,
                // is to use the GcGraphics.DrawString() overload accepting just the point
                // at which to draw the string:
                    "1. Test string. Please read the extensive comments in this sample's code.\r\n" +
                    "(Note that line breaks are allowed even in the simplest DrawString overload.)",
                    tf, new PointF(Inch, Inch));

                // 2.
                // Another overload taking a rectangle instead, plus alignment and wrapping
                // options, is also available and provides a bit more flexibility:
                    "2. A longer test string which will probably need more than the allocated " +
                    "4 inches so quite possibly will wrap to show that DrawString can do that.",
                    new RectangleF(Inch, Inch * 2, Inch * 4, Inch), // the layout rectangle
                    // The rest 3 args are optional, passing defaults here for illustration:
                    TextAlignment.Leading,   // leading (left for LTR languages) text align
                    ParagraphAlignment.Near, // near (top for top-to-bottom flow) para align
                    true); // word wrap

                // 3.
                // Complementary to DrawString, a MeasureString() method is available
                // (with several different overloads), and can be used in pair with
                // DrawString when more control over text layout is needed:
                const string tstr3 = "3. Test string to demo MeasureString() used with DrawString().";

                SizeF layoutSize = new SizeF(Inch * 3, Inch * 0.8f); // available size
                SizeF s = g.MeasureString(tstr3, tf, layoutSize, out int fitCharCount);
                // Show the passed in size in red, the measured size in blue,
                // and draw the string within the returned size as bounds:
                PointF pt = new PointF(Inch, Inch * 3);
                g.DrawRectangle(new RectangleF(pt, layoutSize), Color.Red);
                g.DrawRectangle(new RectangleF(pt, s), Color.Blue);
                g.DrawString(tstr3, tf, new RectangleF(pt, s));

                // 4.
                // A much more powerful and with better performance, way to render text
                // is to use TextLayout. (TextLayout is used anyway by DrawString/MeasureString,
                // so when you use TextLayout directly, you basically cut the work in half.)
                // A TextLayout instance represents one or more paragraphs of text, with 
                // the same paragraph formatting (character formats may be different,
                // see {MultiFormattedText}).
                var tl = g.CreateTextLayout();
                // To add text, use Append() or AppendLine() methods:
                tl.Append("4. First test string added to TextLayout. ", tf);
                tl.Append("Second test string added to TextLayout, continuing the same paragraph. ", tf);
                tl.AppendLine(); // Add a line break, effectively starting a new paragraph
                tl.Append("Third test string added to TextLayout, a new paragraph. ", tf);
                tl.Append("Fourth test string, with a different char formatting. ",
                    new TextFormat(tf)
                        Font = Font.FromFile(Path.Combine("Resources", "Fonts", "timesbi.ttf")),
                        FontSize = fontSize,
                        FontBold = true,
                        FontItalic = true,
                        ForeColor = Color.DarkSeaGreen,
                // Text can be added to TextLayout without explicit TextFormat:
                tl.Append("Fifth test string, using the TextLayout's default format.");
                // ...but in that case at least the Font must be specified on the
                // TextLayout's DefaultFormat, otherwise PerformLayout (below) will fail:
                tl.DefaultFormat.Font = Font.FromFile(Path.Combine("Resources", "Fonts", "timesi.ttf"));
                tl.DefaultFormat.FontSize = fontSize;

                // Specify the layout, such as max available size etc.
                // Here we only provide the max width, but many more parameters can be set:
                tl.MaxWidth = g.Width - Inch * 2;
                // Paragraph formatting can also be set, here we set first line offset,
                // spacing between paragraphs and line spacing:
                tl.FirstLineIndent = Inch * 0.5f;
                tl.ParagraphSpacing = Inch * 0.05f;
                tl.LineSpacingScaleFactor = 0.8f;

                // When all text has been added, and layout options specified,
                // the TextLayout needs to calculate the glyphs needed to render
                // the text, and perform the layout. This can be done with a 
                // single call:

                // Now we can draw it on the page:
                pt = new PointF(Inch, Inch * 4);
                g.DrawTextLayout(tl, pt);
                // TextLayout provides info about the text including the measured bounds
                // and much more. Here we draw the bounding box in orange red:
                g.DrawRectangle(new RectangleF(pt, tl.ContentRectangle.Size), Color.OrangeRed);

                // 5.
                // TextLayout can be re-used to draw different paragraph(s), this can be useful
                // when you need to render a different text with the same paragraph formatting.
                // The Clear() call removes the text but preserves paragraph formatting:
                tl.Append("5. This is text rendered re-using the same TextLayout. ");
                tl.Append("More text added to TextLayout being re-used, continuing the same paragraph. ", tf);
                tl.Append("And finally, some more text added.", tf);
                // The necessary call to calculate the glyphs and perform layout:
                // Render the text:
                g.DrawTextLayout(tl, new PointF(Inch, Inch * 5));
                // Draw border around the whole image:
                g.DrawRectangle(new RectangleF(0, 0, bmp.Width, bmp.Height), Color.DarkSlateBlue, 4);
            // Done:
            return bmp;