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Lioncash 47d85b81a7 CMakeLists: Apply compilation flags to the sirit target
Previously this wasn't utilizing any of the compiler flags, meaning it
wasn't applying any of the specified warnings.

Since applying the warnings to the target, this uncovered a few warning
cases, such as shadowing class variables on MSVC, etc, which have been fixed.
2019-03-14 19:30:54 -03:00
externals aloha 2018-08-23 04:59:57 -03:00
include/sirit CMakeLists: Apply compilation flags to the sirit target 2019-03-14 19:30:54 -03:00
src CMakeLists: Apply compilation flags to the sirit target 2019-03-14 19:30:54 -03:00
tests tests: Fix build error 2019-03-14 04:33:54 -03:00
.clang-format Change clang-format settings 2019-03-11 03:26:21 -03:00
.gitignore aloha 2018-08-23 04:59:57 -03:00
.gitmodules aloha 2018-08-23 04:59:57 -03:00
CMakeLists.txt Avoid CMake SPIR-V module dependencies 2018-11-16 03:59:28 -03:00
LICENSE.txt Upgrade from LGPLv2.1 to LGPLv3 2018-11-16 04:10:10 -03:00
README.md Remove Op prefix on Type instructions 2019-03-13 18:32:38 -03:00

Sirit

A runtime SPIR-V assembler. It aims to ease dynamic SPIR-V code generation without calling external applications (like Khronos' spirv-as)

Its design aims to move code that does not belong to the application in the library without, limitting its functionality.

What it does for you:

  • Sort declaration opcodes
  • Handle types and constant duplicates
  • Emit SPIR-V opcodes

What does not do for you:

  • Avoid ID duplicates (emitting the same instruction twice)
  • Dump code to disk
  • Handle code blocks/branches
  • Compile from a higher level language

It's in early stages of development, many instructions are missing since they are written manually instead of being generated from a file.

Example

class MyModule : public Sirit::Module {
public:
    MyModule() {}
    ~MyModule() = default;

    void Generate() {
        AddCapability(spv::Capability::Shader);
        SetMemoryModel(spv::AddressingModel::Logical, spv::MemoryModel::GLSL450);
        
        auto main_type{TypeFunction(TypeVoid())};
        auto main_func{Emit(OpFunction(TypeVoid(), spv::FunctionControlMask::MaskNone, main_type))};
        Emit(OpLabel());
        Emit(OpReturn());
        Emit(OpFunctionEnd());

        AddEntryPoint(spv::ExecutionModel::Vertex, main_func, "main");
    }
};

// Then...

MyModule module;
module.Generate();

std::vector<std::uint8_t> code{module.Assemble()};