Qt Shader Tools Build System Integration
The Qt Shader Tools module provides a CMake macro file that provides useful functions applications can take into use in their
When using the
qt6_add_shaders function, the qsb tool will get invoked automatically by the build system, and the resulting
.qsb files get added to the resource system implicitly.
Let's look at a simple example. Assume that we have a Qt Quick application that wants to provides its own wobble effect via ShaderEffect. The fragment shader is implemented in
wobble.frag. The ShaderEffect item's fragmentShader property refers to
wobble.frag.qsb. How do we ensure this .qsb file gets generated at build time?
... project(exampleapp LANGUAGES CXX) ... find_package(Qt6 COMPONENTS ShaderTools) ... qt6_add_executable(exampleapp main.cpp ) ... qt6_add_resources(exampleapp "exampleapp" PREFIX "/" FILES "main.qml" ) qt6_add_shaders(exampleapp "exampleapp_shaders" PREFIX "/" FILES "wobble.frag" )
The above is sufficient to enable the application to access
:/wobble.frag.qsb at run time. The original Vulkan-style GLSL source code (wobble.frag) is not included in the application's executable and does not need to be shipped. If there are errors in the shader code, the
glslang compiler messages are printed at build time and the build fails. When changing the shader source file, the changes are picked up automatically in the next build, like they would for C++ and other source files.
The key is the
qt6_add_shaders function, which shares similarity with
qt6_add_resources. Without specifying further parameters, the function will lead to running qsb with a reasonable set of default arguments that are suitable for fragment shaders when targeting Vulkan, Metal, Direct 3D, and OpenGL or OpenGL ES.
Note: Watch out for the
find_package line. It is important to include the
qt6_add_shaders will not be available.
qt6_add_shaders calls are supported. In complex applications it is not unlikely that different sets of shaders need different settings. The name after the project (
"exampleapp_shaders" in the above example) has to be unique for each call.
qt6_add_shaders invokes qsb as follows:
qsb --glsl "100 es,120,150" --hlsl 50 --msl 12 -o <output>.qsb <input>
This means that the resulting package will contain SPIR-V (for Vulkan 1.0), GLSL ES 100 (for OpenGL ES 2.0 and newer), GLSL 120 (for non-core profile OpenGL contexts), GLSL 150 (for core profile OpenGL contexts), HLSL source for Shader Model 5.0 (for Direct3D 11.1), and Metal Shading Language 1.2 source (for Metal).
This is a good set of defaults for Qt Quick, and creates applications that are highly portable to a wide variety of systems. These defaults are not always suitable however. If the shader uses functions or constructs that do not have an equivalent in these targets, the process, and so the build, will fail. If that is the case, the targets will need to be adjusted, and this also means that the application's minimum system requirements get adjusted implicitly. As an example, take the
textureLod GLSL function that is only available with OpenGL ES 3.0 and up (meaning GLSL ES 300 or higher). When requesting GLSL
300 es instead of
100 es, the build will succeed, but the resulting application will now require OpenGL ES 3.0 or higher and will not be compatible with OpenGL ES 2.0 based systems.
The type of shader is deduced from the file extension. Thus, the extension must be one of the following:
.vert- for vertex shaders
.frag- for fragment (pixel) shaders
.comp- for compute shaders
The following keywords are available:
GLSL- Requests generating source code for the given list of GLSL versions. Watch out that the list follows the comma-separated
qsbsyntax. For example, a compute shader will want to specify
"310 es,430"here as the defaults are not suitable for it.
NOGLSL- This argument-less keyword disables generating GLSL source. Suitable for applications that do not wish to function with OpenGL at all.
HLSL- Requests generating source code for the given list of HLSL (shader model) versions. The
qsbtool follows GLSL-style version numbers and therefore
50corresponds to Shader Model 5.0,
NOHLSL- This argument-less keyword disables generating HLSL source. Suitable for applications that do not wish to function with Direct 3D at all.
MSL- Requests generating source code for the given version of the Metal Shading Language.
12corresponds to 1.2,
NOMSL- This argument-less keyword disables generating MSL source. Suitable for applications that do not wish to function with Metal at all.
The most commonly overridden setting is
GLSL. For example, if the application's shaders use OpenGL 3.x features, it will likely want to specify something higher than
100 es or
qt_add_shaders(exampleapp "res_gl3shaders" GLSL "300es,330" PREFIX "/shaders" FILES shaders/ssao.vert shaders/ssao.frag shaders/skybox.vert shaders/skybox.frag )
Note: The space before the
es suffix is optional.
BATCHABLE- Specifying this single, argument-less keyword is essential for vertex shaders that are used with Qt Quick, either in a ShaderEffect or in a QSGMaterialShader. It has no effect for fragment or compute shaders, and different types can safely be included in the same list since the keyword is taken into account only for the
.vertfiles. Equivalent to the
-bargument of qsb.
PRECOMPILE- Equivalent to the
-toptions of qsb, depending on the platform. When building on Windows, this leads to invoking
fxcfrom the Windows SDK to do the first phase of compilation (HLSL source to DXBC bytecode) at build time instead of at run time. On macOS it uses invokves the Metal tools to generate a Metal library. In either case the resulting
.qsbfile will only include the compilation results, not the HLSL or MSL source.
spirv-opt(which must be available from the Vulkan SDK or elsewhere) to perform optimizations on the SPIR-V bytecode. Equivalent to the
-Oargument of qsb.
DEFINES- Defines macros that are active during shader compilation. Equivalent to the
-Dargument of qsb. The list has the form of
"name1=value1;name2=value2". Alternatively, just like
FILES, the list can be separated by newlines.
OUTPUTS- When the name of the generated .qsb file needs to be different from the source, for example because one shader file serves as the source for multiple .qsb files due to differentiating via
DEFINES, this list can contain an entry for each item in
FILES, specifying a file name typically ending in
.qsb. The specified name is then passed in the
-oargument to qsb instead of just appending
.qsbto the source file name.
DEBUGINFO- Enables generating full debug information for SPIR-V, thus enabling tools like RenderDoc to display the full source when inspecting a pipeline or when performing vertex or fragment debugging. Equivalent to the
-gargument of qsb. Also has an effect for Direct 3D in case the
PRECOMPILEkeyword has been specified, as
fxcis then instructed to include debug information in the generated intermediate bytecode.
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