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Could D's Mixins be used to map linear algebra operations to either/both CPU code and OpenCL or GPU vertex shader functions such as GLSL? This would be a real killer application for D and better bridge logic targeted for both CPU and GPU execution. Compare this with glm and D's gl3n which is only compile fixed-size linear algebra to CPU-code.

VexCL is a proof of concept for this using OpenCL and C++11 (GCC 4.6 or later) by completely abstracting away backend-dependent (CPU/GPU) implementation details about memory allocations and code execution somewhat similar to C++ AMP. So things can only get better in D right? Can mixins completely replace the use of C++ expression templates used in VexCL? Here's a nice tutorial on its use.

CTFE may also play a role here in this discussion.

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Yes, definitely. In fact it should be quite straightforward. I did a proof-of-concept of this sort of thing back in 2007 (see my presentation at the first D conference). Hardly anything worked in CTFE in those days, but it was still an order of magnitude easier than doing the equivalent thing in C++.

The desire to do this sort of thing was part of the motivation for development of template value parameters, CTFE, and SIMD operations.

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Do you have any documents or code to refer to, either of your own or from others? –  Nordlöw Feb 8 '13 at 12:49
    
The code I wrote at the time is probably still on dsource.org in the MathExtra project. But, as I said, the compiler has improved so much in the past 5 years that my code is all hopelessly obsolete. Back then, you couldn't even use structs at compile time; now you can even throw exceptions and use pointers! The compile-time regex implementation in Phobos is a good example of more recent code. –  Don Clugston Feb 8 '13 at 14:13

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