You might try going down the path of writing it in just OpenCL. That way you have one version of the code that runs on both CPU and GPU... in theory.
In practice, to get optimum performance you might want to tweak your code for the particular hardware you are targeting. For example, x86 CPU might benefit from using vectors while NVidia GPU might not as much or at all (in fact even different versions of hardware from the same manufacturer could have different characteristics).
To target GPU, you'll likely need an OpenCL version of your algorithm anyway. When tweaking for particular hardware, you can go down the path of using #define/#ifdef and rewrite or tweak only parts of the algorithm that need it. This may work for your algorithm and save you duplicating a whole lot of code.
A disadvantage of OpenCL is that it is harder to use than just coding or using a C library. If your library/algorithm is for somebody else and it is written in OpenCL, you are forcing them to include the OpenCL libraries and have an OpenCL runtime on their system. It can also be harder to debug - no console printing (but there are extensions that support this) and I haven't got any experience with OpenCL debuggers but I doubt they are as good as traditional debuggers.