I've found a workaround that is at the same time elegant and not relies on extending the Crystal Reports using C.
I've found this small and simple "latex equation renderer": mimeTeX. Using it, I'm able to render latex equations into GIF images (as a CGI application). With that, I created a phantom byte array field in the datatable where the report is getting data.
Here is what I've done:
- Recover the latex equation markup from my real database;
- Query mimeTeX using this markup and mimeTeX returns a gif image;
- Take this image and convert it to png format (Crystal surprisingly do not support GIF files);
- Finally put this PNG image (its bytes) in the phantom field created in the datatable used by the report;
- Now you can use this field in the report! The images for each record (equation) are generated and displayed without problems!
The only drawback I've found until now using this approach is that all the images are streched to the same size of the field placeholder. If the images have sizes that varies much, some will be displayed pixelated and others will become "squashed". But I'm looking forward how to resolve this issue!
--- Edit ---
Solved the "squashed images" problem. I resize the images in code maintaining their aspect ratio and "pasting" them in a fixed size image. Now all the images get the same size and doesn't get squashed!
Here is the code for the resizing:
MemoryStream ResizeImage(Stream OriginalFile, int NewWidth, int MaxHeight, bool OnlyResizeIfWider)
int finalWidth = NewWidth;
int finalHeight = MaxHeight;
System.Drawing.Image FullsizeImage = System.Drawing.Image.FromStream(OriginalFile);
// Prevent using images internal thumbnail
if (FullsizeImage.Width <= NewWidth)
NewWidth = FullsizeImage.Width;
int NewHeight = FullsizeImage.Height * NewWidth / FullsizeImage.Width;
if (NewHeight > MaxHeight)
// Resize with height instead
NewWidth = FullsizeImage.Width * MaxHeight / FullsizeImage.Height;
NewHeight = MaxHeight;
System.Drawing.Image NewImage = FullsizeImage.GetThumbnailImage(NewWidth, NewHeight, null, IntPtr.Zero);
// Clear handle to original file so that we can overwrite it if necessary
MemoryStream bmpStream = new MemoryStream();
// Put in a new image of A x B pixels to evict distortion
using (var bitmap = new Bitmap(finalWidth, finalHeight))
using (var canvas = Graphics.FromImage(bitmap))
canvas.InterpolationMode = InterpolationMode.HighQualityBicubic;
canvas.DrawImage(NewImage, 0, 0);