QSGGeometry#

The QSGGeometry class provides low-level storage for graphics primitives in the Qt Quick Scene Graph . More…

Synopsis#

Functions#

def allocate (vertexCount[, indexCount=0])
def attributeCount ()
def attributes ()
def drawingMode ()
def indexCount ()
def indexData ()
def indexDataAsUInt ()
def indexDataAsUShort ()
def indexDataPattern ()
def indexType ()
def lineWidth ()
def markIndexDataDirty ()
def markVertexDataDirty ()
def setDrawingMode (mode)
def setIndexDataPattern (p)
def setLineWidth (w)
def setVertexDataAsPoint2D (points)
def setVertexDataPattern (p)
def sizeOfIndex ()
def sizeOfVertex ()
def vertexCount ()
def vertexData ()
def vertexDataAsColoredPoint2D ()
def vertexDataAsPoint2D ()
def vertexDataAsTexturedPoint2D ()
def vertexDataPattern ()

Static functions#

def defaultAttributes_ColoredPoint2D ()
def defaultAttributes_Point2D ()
def defaultAttributes_TexturedPoint2D ()
def updateColoredRectGeometry (g, rect)
def updateRectGeometry (g, rect)
def updateTexturedRectGeometry (g, rect, sourceRect)

Note

This documentation may contain snippets that were automatically translated from C++ to Python. We always welcome contributions to the snippet translation. If you see an issue with the translation, you can also let us know by creating a ticket on https:/bugreports.qt.io/projects/PYSIDE

Detailed Description#

The QSGGeometry class stores the geometry of the primitives rendered with the scene graph. It contains vertex data and optionally index data. The mode used to draw the geometry, also called primitive topology, is specified with setDrawingMode() .

Vertices can be as simple as points defined by x and y values or can be more complex where each vertex contains a normal, texture coordinates and a 3D position. The AttributeSet is used to describe how the vertex data is built up. The attribute set can only be specified on construction. The QSGGeometry class provides a few convenience attributes and attribute sets by default. The defaultAttributes_Point2D() function returns an attribute set to be used in normal solid color rectangles, while the defaultAttributes_TexturedPoint2D function returns attributes to be used for textured 2D geometry. The vertex data is internally stored as a void * and is accessible with the vertexData() function. Convenience accessors for the common attribute sets are available with vertexDataAsPoint2D() and vertexDataAsTexturedPoint2D() . Vertex data is allocated by passing a vertex count to the constructor or by calling allocate() later.

The QSGGeometry can optionally contain indices of either unsigned 32-bit, unsigned 16-bit, or unsigned 8-bit integers. The index type must be specified during construction and cannot be changed.

Below is a snippet illustrating how a geometry composed of position and color vertices can be built.

struct MyPoint2D {
    float x;
    float y;
    float r;
    float g;
    float b;
    float a;

    void set(float x_, float y_, float r_, float g_, float b_, float a_) {
        x = x_;
        y = y_;
        r = r_;
        g = g_;
        b = b_;
        a = a_;
    }
};

QSGGeometry::Attribute MyPoint2D_Attributes[] = {
    QSGGeometry::Attribute::create(0, 2, FloatType, true),
    QSGGeometry::Attribute::create(1, 4, FloatType, false)
};

QSGGeometry::AttributeSet MyPoint2D_AttributeSet = {
    2,
    sizeof(MyPoint2D),
    MyPoint2D_Attributes
};

...

geometry = new QSGGeometry(MyPoint2D_AttributeSet, 2);
geometry->setDrawingMode(DrawLines);

MyPoint2D *vertices = static_cast<MyPoint2D *>(geometry->vertexData());
vertices[0].set(0, 0, 1, 0, 0, 1);
vertices[1].set(width(), height(), 0, 0, 1, 1);

The QSGGeometry is a software buffer and client-side in terms of accelerated rendering, as the buffers used in 2D graphics typically consist of many small buffers that change every frame and do not benefit from being uploaded to graphics memory. However, the QSGGeometry supports hinting to the renderer that a buffer should be uploaded using the setVertexDataPattern() and setIndexDataPattern() functions. Whether this hint is respected or not is implementation specific.

Note

All classes with QSG prefix should be used solely on the scene graph’s rendering thread. See Scene Graph and Rendering for more information.

See also

QSGGeometryNode Scene Graph - Custom Geometry

class PySide6.QtQuick.QSGGeometry(attribs, vertexCount[, indexCount=0[, indexType=QSGGeometry.Type.UnsignedShortType]])#

Parameters:

indexCount – int
indexType – int
vertexCount – int
attribs – PySide6.QtQuick.QSGGeometry.AttributeSet

Constructs a geometry object based on attributes.

The object allocate space for vertexCount vertices based on the accumulated size in attributes and for indexCount.

The indexType can be UnsignedShortType or UnsignedIntType. Support for the latter depends on the graphics API implementation used at run time, and may not always be available.

Geometry objects are constructed by default with DrawTriangleStrip as the drawing mode.

Note

attributes and the Attribute objects referenced by it must stay valid for the entire lifetime of the QSGGeometry . QSGGeometry stores a reference to attributes and does not delete the Attribute objects.

PySide6.QtQuick.QSGGeometry.AttributeType#

This enum identifies several attribute types.

Constant

Description

QSGGeometry.UnknownAttribute

Don’t care

QSGGeometry.PositionAttribute

Position

QSGGeometry.ColorAttribute

Color

QSGGeometry.TexCoordAttribute

Texture coordinate

QSGGeometry.TexCoord1Attribute

Texture coordinate 1

QSGGeometry.TexCoord2Attribute

Texture coordinate 2

Constant	Description
QSGGeometry.UnknownAttribute	Don’t care
QSGGeometry.PositionAttribute	Position
QSGGeometry.ColorAttribute	Color
QSGGeometry.TexCoordAttribute	Texture coordinate
QSGGeometry.TexCoord1Attribute	Texture coordinate 1
QSGGeometry.TexCoord2Attribute	Texture coordinate 2

PySide6.QtQuick.QSGGeometry.DataPattern#

The DataPattern enum is used to specify the use pattern for the vertex and index data in a geometry object.

Constant

Description

QSGGeometry.AlwaysUploadPattern

The data is always uploaded. This means that the user does not need to explicitly mark index and vertex data as dirty after changing it. This is the default.

QSGGeometry.DynamicPattern

The data is modified repeatedly and drawn many times. This is a hint that may provide better performance. When set the user must make sure to mark the data as dirty after changing it.

QSGGeometry.StaticPattern

The data is modified once and drawn many times. This is a hint that may provide better performance. When set the user must make sure to mark the data as dirty after changing it.

QSGGeometry.StreamPattern

The data is modified for almost every time it is drawn. This is a hint that may provide better performance. When set, the user must make sure to mark the data as dirty after changing it.

Constant	Description
QSGGeometry.AlwaysUploadPattern	The data is always uploaded. This means that the user does not need to explicitly mark index and vertex data as dirty after changing it. This is the default.
QSGGeometry.DynamicPattern	The data is modified repeatedly and drawn many times. This is a hint that may provide better performance. When set the user must make sure to mark the data as dirty after changing it.
QSGGeometry.StaticPattern	The data is modified once and drawn many times. This is a hint that may provide better performance. When set the user must make sure to mark the data as dirty after changing it.
QSGGeometry.StreamPattern	The data is modified for almost every time it is drawn. This is a hint that may provide better performance. When set, the user must make sure to mark the data as dirty after changing it.

PySide6.QtQuick.QSGGeometry.DrawingMode#

(inherits enum.IntEnum) Specifies the drawing mode, also called primitive topology.

Note

Starting with Qt 6 the scene graph only exposes topologies that are supported across all the supported 3D graphics APIs. As a result, the values DrawLineLoop and DrawTriangleFan are no longer supported at run time in Qt 6, even though the enum values themselves are still present.

Constant	Description
QSGGeometry.DrawPoints
QSGGeometry.DrawLines
QSGGeometry.DrawLineStrip
QSGGeometry.DrawTriangles
QSGGeometry.DrawTriangleStrip

PySide6.QtQuick.QSGGeometry.Type#

Specifies the component type in the vertex data.

Constant

Description

QSGGeometry.ByteType

QSGGeometry.UnsignedByteType

QSGGeometry.ShortType

QSGGeometry.UnsignedShortType

QSGGeometry.IntType

QSGGeometry.UnsignedIntType

QSGGeometry.FloatType

QSGGeometry.Bytes2Type

Added in Qt 5.14.

QSGGeometry.Bytes3Type

Added in Qt 5.14.

QSGGeometry.Bytes4Type

Added in Qt 5.14.

QSGGeometry.DoubleType

Added in Qt 5.14.

Constant	Description
QSGGeometry.ByteType
QSGGeometry.UnsignedByteType
QSGGeometry.ShortType
QSGGeometry.UnsignedShortType
QSGGeometry.IntType
QSGGeometry.UnsignedIntType
QSGGeometry.FloatType
QSGGeometry.Bytes2Type	Added in Qt 5.14.
QSGGeometry.Bytes3Type	Added in Qt 5.14.
QSGGeometry.Bytes4Type	Added in Qt 5.14.
QSGGeometry.DoubleType	Added in Qt 5.14.

PySide6.QtQuick.QSGGeometry.allocate(vertexCount[, indexCount=0])#

Parameters:

vertexCount – int
indexCount – int

Resizes the vertex and index data of this geometry object to fit vertexCount vertices and indexCount indices.

Vertex and index data will be invalidated after this call and the caller must mark the associated geometry node as dirty, by calling node->markDirty( DirtyGeometry ) to ensure that the renderer has a chance to update internal buffers.

PySide6.QtQuick.QSGGeometry.attributeCount()#

Return type:: int

Returns the number of attributes in the attrbute set used by this geometry.

PySide6.QtQuick.QSGGeometry.attributes()#

Return type:: PySide6.QtQuick.QSGGeometry.Attribute

Returns an array with the attributes of this geometry. The size of the array is given with attributeCount() .

static PySide6.QtQuick.QSGGeometry.defaultAttributes_ColoredPoint2D()#

Return type:: PySide6.QtQuick.QSGGeometry.AttributeSet

Convenience function which returns attributes to be used for per vertex colored 2D drawing.

static PySide6.QtQuick.QSGGeometry.defaultAttributes_Point2D()#

Return type:: PySide6.QtQuick.QSGGeometry.AttributeSet

Convenience function which returns attributes to be used for 2D solid color drawing.

static PySide6.QtQuick.QSGGeometry.defaultAttributes_TexturedPoint2D()#

Return type:: PySide6.QtQuick.QSGGeometry.AttributeSet

Convenience function which returns attributes to be used for textured 2D drawing.

PySide6.QtQuick.QSGGeometry.drawingMode()#

Return type:: int

Returns the drawing mode of this geometry.

The default value is DrawTriangleStrip .

See also

setDrawingMode()

PySide6.QtQuick.QSGGeometry.indexCount()#

Return type:: int

Returns the number of indices in this geometry object.

PySide6.QtQuick.QSGGeometry.indexData()#

Return type:: void

Returns a pointer to the raw index data of this geometry object.

See also

indexDataAsUShort() indexDataAsUInt()

PySide6.QtQuick.QSGGeometry.indexDataAsUInt()#

Return type:: uint

Convenience function to access the index data as an immutable array of 32-bit unsigned integers.

PySide6.QtQuick.QSGGeometry.indexDataAsUShort()#

Return type:: quint16

Convenience function to access the index data as an immutable array of 16-bit unsigned integers.

PySide6.QtQuick.QSGGeometry.indexDataPattern()#

Return type:: DataPattern

Returns the usage pattern for indices in this geometry. The default pattern is AlwaysUploadPattern .

See also

setIndexDataPattern()

PySide6.QtQuick.QSGGeometry.indexType()#

Return type:: int

Returns the primitive type used for indices in this geometry object.

PySide6.QtQuick.QSGGeometry.lineWidth()#

Return type:: float

Gets the current line or point width or to be used for this geometry. This property only applies to line width when the drawingMode is DrawLines or DrawLineStrip . When supported, it also applies to point size when the drawingMode is DrawPoints .

The default value is 1.0

Note

Support for point and line drawing may be limited at run time, depending on the platform and graphics API. For example, some APIs do not support point sprites and so setting a size other than 1 is not possible.

Note

The width of 1.0 is always supported.