I recently started playing around with the SharpDX wrapper to get high performance graphics output from a C# application. According to its creators, the performance penalty associated with using SharpDX (their own numbers indicate that going via SharpDX is about 2X slower than interfacing with DirectX from native code) is mainly stemming from the marshalling of draw calls from managed code to the underlying API.
Therefore I wonder if it would be a good idea to create some sort of batching of those calls in a lightweight "description language" to cut down the number of marshalleded calls per screen update to one. I'm thinking about an approach where I'm translating the calls into a byte-array-ish table that could be sent in one go to a C++ method that in turn would decode that into appropriate native D2D calls.
My (custom) layout system in C# would collect everything that is supposed to be rendered for the next screen update in a list, à la so (quasi description):
1. define brush1(color(FF, 00, 00)) 2. define brush2(color(00, FF, 00)) 3. draw ellipse(brush1, origin(0, 0), radius(15, 15)) 4. draw ellipse(brush2, origin(127, 127), radius(255, 255)) 5. draw ellipse(brush2, origin(127, 0), radius(255, 255)) 6. ...
This list could then be encoded as a byte array (for simplicity, coordinates are given as bytes in this rough example):
1. 01 01 FF 00 00 2. 01 02 00 FF 00 3. 10 01 00 00 0F 0F 4. 10 02 7F 7F FF FF 5. 10 02 7F 00 FF FF 6. ...
Render() this sequence is sent to a custom C++ method all at once (i.e. with just one marshalled call, rather than hundreds, maybe thousands) which parses this and does the corresponding, actual calls to the Direct2D API natively.
Is such an approach viable?