This is a prototype library implementing [Vulkan Portability Initiative](https://www.khronos.org/blog/khronos-announces-the-vulkan-portability-initiative) using [gfx-hal](http://gfx-rs.github.io/2017/07/24/low-level.html). See gfx-rs [meta issue](https://github.com/gfx-rs/gfx/issues/1354) for backend limitations and further details.
Despite the fact it's written in Rust, the produced binary is a standard dynamic library that can be linked to from any program (written in the language of your choice). Typically, you'd need to create a symbolic link with a name that a target application expects, e.g. `libvulkan.dylib -> libportability.dylib`.
After building `portability` as shown above, grab a copy from https://github.com/LunarG/VulkanSamples.
Manually override the [`VULKAN_LOADER`](https://github.com/LunarG/VulkanSamples/blob/master/API-Samples/CMakeLists.txt#L189-L194) variable and set it to the portability library.
Please visit [our wiki](https://github.com/gfx-rs/portability/wiki/Vulkan-CTS-status) for CTS hookup instructions. Once everything is set, you can generate the new results by calling `make cts` on Unix systems. When investigating a particular failure, it's handy to do `make cts debug=<test_name>`, which runs a single test under system debugger (gdb/lldb). For simply inspecting the log output, one can also do `make cts pick=<test_name>`.