QSGMaterial Class

The QSGMaterial class encapsulates rendering state for a shader program. 更多...

头：	`#include <QSGMaterial>`
CMake:	`find_package(Qt6 REQUIRED COMPONENTS Quick)` `target_link_libraries(mytarget PRIVATE Qt6::Quick)`
qmake:	`QT += quick`
继承者：	QSGFlatColorMaterial , QSGOpaqueTextureMaterial ，和 QSGVertexColorMaterial

所有成员列表，包括继承成员
QSGMaterial is part of Qt Quick Scene Graph Material Classes .

公共类型

enum	Flag { Blending, RequiresDeterminant, RequiresFullMatrixExceptTranslate, RequiresFullMatrix, NoBatching, CustomCompileStep }
flags	Flags

公共函数

virtual int	compare (const QSGMaterial * other ) const
virtual QSGMaterialShader *	createShader (QSGRendererInterface::RenderMode renderMode ) const = 0
QSGMaterial::Flags	flags () const
void	setFlag (QSGMaterial::Flags flags , bool on = true)
virtual QSGMaterialType *	type () const = 0
`(从 6.8 起)` int	viewCount () const

详细描述

QSGMaterial and QSGMaterialShader subclasses form a tight relationship. For one scene graph (including nested graphs), there is one unique QSGMaterialShader instance which encapsulates the shaders the scene graph uses to render that material, such as a shader to flat coloring of geometry. Each QSGGeometryNode can have a unique QSGMaterial containing the how the shader should be configured when drawing that node, such as the actual color to used to render the geometry.

QSGMaterial has two virtual functions that both need to be implemented. The function type () should return a unique instance for all instances of a specific subclass. The createShader () function should return a new instance of QSGMaterialShader , specific to that subclass of QSGMaterial.

A minimal QSGMaterial implementation could look like this:

class Material : public QSGMaterial
{
public:
    QSGMaterialType *type() const override { static QSGMaterialType type; return &type; }
    QSGMaterialShader *createShader(QSGRendererInterface::RenderMode) const override { return new Shader; }
};

见 Custom Material example for an introduction on implementing a QQuickItem subclass backed by a QSGGeometryNode and a custom material.

注意： createShader () is called only once per QSGMaterialType , to reduce redundant work with shader preparation. If a QSGMaterial is backed by multiple sets of vertex and fragment shader combinations, the implementation of type () must return a different, unique QSGMaterialType pointer for each combination of shaders.

注意： 所有带有 QSG 前缀的类只应用于场景图形渲染线程。见场景图形和渲染了解更多信息。

另请参阅 QSGMaterialShader , 场景图形 - 自定义材质 , 场景图形 - 2 纹理提供程序，和场景图形 - 图形 .

成员类型文档编制

enum QSGMaterial:: Flag
flags QSGMaterial:: Flags

常量	值	描述
`QSGMaterial::Blending`	`0x0001`	Set this flag to true if the material requires blending to be enabled during rendering.
`QSGMaterial::RequiresDeterminant`	`0x0002`	Set this flag to true if the material relies on the determinant of the matrix of the geometry nodes for rendering.
`QSGMaterial::RequiresFullMatrixExceptTranslate`	`0x0004 \| RequiresDeterminant`	Set this flag to true if the material relies on the full matrix of the geometry nodes for rendering, except the translation part.
`QSGMaterial::RequiresFullMatrix`	`0x0008 \| RequiresFullMatrixExceptTranslate`	Set this flag to true if the material relies on the full matrix of the geometry nodes for rendering.
`QSGMaterial::NoBatching`	`0x0010`	Set this flag to true if the material uses shaders that are incompatible with the scene graph's batching mechanism . This is relevant in certain advanced usages, such as, directly manipulating `gl_Position.z` in the vertex shader. Such solutions are often tied to a specific scene structure, and are likely not safe to use with arbitrary contents in a scene. Thus this flag should only be set after appropriate investigation, and will never be needed for the vast majority of materials. Setting this flag can lead to reduced performance due to having to issue more draw calls. This flag was introduced in Qt 6.3.
`QSGMaterial::CustomCompileStep`	`NoBatching`	In Qt 6 this flag is identical to NoBatching. Prefer using NoBatching instead.

Flags 类型是 typedef 对于 QFlags <Flag>。它存储 Flag 值的 OR (或) 组合。

成员函数文档编制

`[虚拟]` int QSGMaterial:: compare (const QSGMaterial * other ) const

Compares this material to other and returns 0 if they are equal; -1 if this material should sort before other and 1 if other should sort before.

The scene graph can reorder geometry nodes to minimize state changes. The compare function is called during the sorting process so that the materials can be sorted to minimize state changes in each call to QSGMaterialShader::updateState().

The this pointer and other is guaranteed to have the same type ().

`[pure virtual]` QSGMaterialShader QSGMaterial:: createShader ( QSGRendererInterface::RenderMode renderMode* ) const

This function returns a new instance of a the QSGMaterialShader implementation used to render geometry for a specific implementation of QSGMaterial .

The function will be called only once for each combination of material type and renderMode and will be cached internally.

For most materials, the renderMode can be ignored. A few materials may need custom handling for specific render modes. For instance if the material implements antialiasing in a way that needs to account for perspective transformations when RenderMode3D is in use.

QSGMaterial::Flags QSGMaterial:: flags () const

Returns the material's flags.

void QSGMaterial:: setFlag ( QSGMaterial::Flags flags , bool on = true)

Sets the flags flags on this material if on 为 true；否则清零属性。

`[pure virtual]` QSGMaterialType *QSGMaterial:: type () const

This function is called by the scene graph to query an identifier that is unique to the QSGMaterialShader instantiated by createShader ().

For many materials, the typical approach will be to return a pointer to a static, and so globally available, QSGMaterialType instance. The QSGMaterialType is an opaque object. Its purpose is only to serve as a type-safe, simple way to generate unique material identifiers.

QSGMaterialType *type() const override
{
    static QSGMaterialType type;
    return &type;
}

`[since 6.8]` int QSGMaterial:: viewCount () const

Returns The number of views in case of the material is used in multiview rendering.

注意： The return value is valid only when called from createShader (), and afterwards. The value is not necessarily up-to-date before createShader () is invokved by the scene graph.

Normally the return value is 1 . A view count greater than 2 implies a multiview render pass . Materials that support multiview are expected to query viewCount() in createShader (), or in their QSGMaterialShader constructor, and ensure the appropriate shaders are picked. The vertex shader is then expected to use gl_ViewIndex to index the modelview-projection matrix array as there are multiple matrices in multiview mode. (one for each view)

As an example, take the following simple vertex shader:

#version 440
layout(location = 0) in vec4 vertexCoord;
layout(location = 1) in vec4 vertexColor;
layout(location = 0) out vec4 color;
layout(std140, binding = 0) uniform buf {
    mat4 matrix[2];
    float opacity;
};
void main()
{
    gl_Position = matrix[gl_ViewIndex] * vertexCoord;
    color = vertexColor * opacity;
}

This shader is prepared to handle 2 views, and 2 views only. It is not compatible with other view counts. When conditioning the shader, the qsb tool has to be invoked with --view-count 2 or, if using the CMake integration, VIEW_COUNT 2 must be specified in the qt_add_shaders() 命令。

注意： A line with #extension GL_EXT_multiview : require is injected automatically by qsb whenever a view count of 2 or greater is set.

Developers are encouraged to use the automatically injected preprocessor variable QSHADER_VIEW_COUNT to simplify the handling of the different number of views. For example, if there is a need to support both non-multiview and multiview with a view count of 2 in the same source file, the following could be done:

#version 440
layout(location = 0) in vec4 vertexCoord;
layout(location = 1) in vec4 vertexColor;
layout(location = 0) out vec4 color;
layout(std140, binding = 0) uniform buf {
#if QSHADER_VIEW_COUNT >= 2
    mat4 matrix[QSHADER_VIEW_COUNT];
#else
    mat4 matrix;
#endif
    float opacity;
};
void main()
{
#if QSHADER_VIEW_COUNT >= 2
    gl_Position = matrix[gl_ViewIndex] * vertexCoord;
#else
    gl_Position = matrix * vertexCoord;
#endif
    color = vertexColor * opacity;
}

The same source file can now be run through qsb or qt_add_shaders() twice, once without specify the view count, and once with the view count set to 2. The material can then pick the appropriate .qsb file based on viewCount() at run time.

With CMake, this could looks similar to the following. With this example the corresponding QSGMaterialShader is expected to choose between :/shaders/example.vert.qsb and :/shaders/multiview/example.vert.qsb based on the value of viewCount(). (same goes for the fragment shader)

qt_add_shaders(application "application_shaders"
    PREFIX
        /
    FILES
        shaders/example.vert
        shaders/example.frag
)
qt_add_shaders(application "application_multiview_shaders"
    GLSL
        330,300es
    HLSL
        61
    MSL
        12
    VIEW_COUNT
        2
    PREFIX
        /
    FILES
        shaders/example.vert
        shaders/example.frag
    OUTPUTS
        shaders/multiview/example.vert
        shaders/multiview/example.frag
)

注意： The fragment shader should be treated the same way the vertex shader is, even though the fragment shader code cannot have any dependency on the view count ( gl_ViewIndex ), for maximum portability. There are two reasons for including fragment shaders too in the multiview set. One is that mixing different shader versions within the same graphics pipeline can be problematic, depending on the underlying graphics API: with D3D12 for example, mixing HLSL shaders for shader model 5.0 and 6.1 would generate an error. The other is that having QSHADER_VIEW_COUNT defined in fragment shaders can be very useful, for example when sharing a uniform buffer layout between the vertex and fragment stages.

注意： For OpenGL the minimum GLSL version for vertex shaders relying on gl_ViewIndex is 330 . Lower versions may be accepted at build time, but may lead to an error at run time, depending on the OpenGL implementation.

As a convenience, there is also a MULTIVIEW option for qt_add_shaders(). This first runs the qsb tool normally, then overrides VIEW_COUNT to 2 , sets GLSL , HLSL , MSL to some suitable defaults, and runs qsb again, this time outputting .qsb files with a suffix added. The material implementation can then use the QSGMaterialShader::setShaderFileName () overload taking a viewCount argument, that automatically picks the correct .qsb file.

The following is therefore mostly equivalent to the example call shown above, except that no manually managed output files need to be specified. Note that there can be cases when the automatically chosen shading language versions are not sufficient, in which case applications should continue specify everything explicitly.

qt_add_shaders(application "application_multiview_shaders"
    MULTIVIEW
    PREFIX
        /
    FILES
        shaders/example.vert
        shaders/example.frag
)

见 QRhi::MultiView , QRhiColorAttachment::setMultiViewCount ()，和 QRhiGraphicsPipeline::setMultiViewCount () for further, lower-level details on multiview support in Qt. The Qt Quick scene graph renderer is prepared to recognize multiview render targets, when specified via QQuickRenderTarget::fromRhiRenderTarget () or the 3D API specific functions, such as fromVulkanImage () with an arraySize argument greater than 1. The renderer will then propagate the view count to graphics pipelines and the materials.

该函数在 Qt 6.8 引入。