# bevel or sunken effect algorithm on c#

I am looking for ways to generate the bevel/emboss effect for a set of random closed beizier shapes. I came across the following post which seems to match my requirement.

http://dsp.stackexchange.com/questions/530/bitmap-alpha-bevel-algorithm

How do i get this ported to C# ? Are there any algorithms available that i can use? Or alternately are there any .NET imaging libraries to use or some code snippets to get me started ?

I would need to be running this code on a server to generate dynamic shapes that have transparency around them.

-
the example in the post you referenced is written in openCV, there is already a c# .net wrapper of openCV called Emgucv –  elasticrash Feb 19 '13 at 13:07
@elasticrash.. thank you. I did further search and this link seems helpful stackoverflow.com/questions/85569/… –  user3526 Feb 21 '13 at 0:28

1. create 'mesh' from your closed polygon/polyline/path
• base is enlarged basic shape by bevel/sunken width
• top on or below it is your shape
• enlargement is done by scaling around center for basic symmetric shapes
• or by perpendicular shift + line/curve enlarging/intersect cuting to join
• second choice is complex to code but always shape correct
2. create normals
• normal to light source RED (usually light is on upper left corner)
• and surface normals on the 'mesh' GREEN (for every edge,area or pixel)
• light normal can be constant for whole area for direction light (far light source like sunlight)
• or computed for every point for point light (close light source)
• all normal must be unit 3D vectors !!!
3. render 'mesh' with light (simple normal lighting will be enough)

``````lighted color = base color * dot_product(light normal,surface normal)
``````
• dot product is scalar vector multiplication like this

``````(A.B)
= dot_product(A(x1,y1,z1),B(x2,y2,z2))
= (x1*x2)+(y1*y2)+(z1*z2)
``````
• when A,B are unit vectors then the result is <-1,+1>

• 0 means A,B are perpendicular
• +/- 1 means they are parallel
• -1 means they have opposite direction

See image for more clarity

PS. 'mesh' can be still 2D only the normals must be 3D

-