Q3DSurface

The Q3DSurface class provides methods for rendering 3D surface plots. More

Inheritance diagram of PySide6.QtDataVisualization.Q3DSurface

Synopsis

Functions

Detailed Description

This class enables developers to render 3D surface plots and to view them by rotating the scene freely. The visual properties of the surface such as draw mode and shading can be controlled via QSurface3DSeries .

The Q3DSurface supports selection by showing a highlighted ball on the data point where the user has clicked with left mouse button (when default input handler is in use) or selected via QSurface3DSeries . The selection pointer is accompanied with a label which in default case shows the value of the data point and the coordinates of the point.

The value range and the label format shown on the axis can be controlled through QValue3DAxis .

To rotate the graph, hold down the right mouse button and move the mouse. Zooming is done using mouse wheel. Both assume the default input handler is in use.

If no axes are set explicitly to Q3DSurface , temporary default axes with no labels are created. These default axes can be modified via axis accessors, but as soon any axis is set explicitly for the orientation, the default axis for that orientation is destroyed.

How to construct a minimal Q3DSurface graph

First, construct Q3DSurface . Since we are running the graph as top level window in this example, we need to clear the Qt::FramelessWindowHint flag, which gets set by default:

Q3DSurface surface;
surface.setFlags(surface.flags() ^ Qt::FramelessWindowHint);

Now Q3DSurface is ready to receive data to be rendered. Create data elements to receive values:

QSurfaceDataArray *data = new QSurfaceDataArray;
QSurfaceDataRow *dataRow1 = new QSurfaceDataRow;
QSurfaceDataRow *dataRow2 = new QSurfaceDataRow;

First feed the data to the row elements and then add their pointers to the data element:

*dataRow1 << QVector3D(0.0f, 0.1f, 0.5f) << QVector3D(1.0f, 0.5f, 0.5f);
*dataRow2 << QVector3D(0.0f, 1.8f, 1.0f) << QVector3D(1.0f, 1.2f, 1.0f);
*data << dataRow1 << dataRow2;

Create a new series and set data to it:

QSurface3DSeries *series = new QSurface3DSeries;
series->dataProxy()->resetArray(data);
surface.addSeries(series);

Finally you will need to set it visible:

surface.show();

The complete code needed to create and display this graph is:

#include <QtDataVisualization>

int main(int argc, char **argv)
{
    qputenv("QSG_RHI_BACKEND", "opengl");
    QGuiApplication app(argc, argv);


    Q3DSurface surface;
    surface.setFlags(surface.flags() ^ Qt::FramelessWindowHint);


    QSurfaceDataArray *data = new QSurfaceDataArray;
    QSurfaceDataRow *dataRow1 = new QSurfaceDataRow;
    QSurfaceDataRow *dataRow2 = new QSurfaceDataRow;



    *dataRow1 << QVector3D(0.0f, 0.1f, 0.5f) << QVector3D(1.0f, 0.5f, 0.5f);
    *dataRow2 << QVector3D(0.0f, 1.8f, 1.0f) << QVector3D(1.0f, 1.2f, 1.0f);
    *data << dataRow1 << dataRow2;



    QSurface3DSeries *series = new QSurface3DSeries;
    series->dataProxy()->resetArray(data);
    surface.addSeries(series);


    surface.show();


    return app.exec();
}

And this is what those few lines of code produce:

../../_images/q3dsurface-minimal.png

The scene can be rotated, zoomed into, and a surface point can be selected to view its position, but no other interaction is included in this minimal code example. You can learn more by familiarizing yourself with the examples provided, like the Surface Example .

See also

Q3DBars Q3DScatter Qt Data Visualization C++ Classes

class PySide6.QtDataVisualization.Q3DSurface([format=None[, parent=None]])
Parameters

Constructs a new 3D surface graph with optional parent window and surface format.

PySide6.QtDataVisualization.Q3DSurface.addAxis(axis)
Parameters

axisPySide6.QtDataVisualization.QValue3DAxis

Adds axis to the graph. The axes added via are not yet taken to use, is simply used to give the ownership of the axis to the graph. The axis must not be null or added to another graph.

PySide6.QtDataVisualization.Q3DSurface.addSeries(series)
Parameters

seriesPySide6.QtDataVisualization.QSurface3DSeries

Adds the series to the graph. A graph can contain multiple series, but has only one set of axes. If the newly added series has specified a selected item, it will be highlighted and any existing selection will be cleared. Only one added series can have an active selection.

PySide6.QtDataVisualization.Q3DSurface.axes()
Return type

Returns the list of all added axes.

See also

addAxis()

PySide6.QtDataVisualization.Q3DSurface.axisX()
Return type

PySide6.QtDataVisualization.QValue3DAxis

See also

setAxisX()

PySide6.QtDataVisualization.Q3DSurface.axisXChanged(axis)
Parameters

axisPySide6.QtDataVisualization.QValue3DAxis

PySide6.QtDataVisualization.Q3DSurface.axisY()
Return type

PySide6.QtDataVisualization.QValue3DAxis

See also

setAxisY()

PySide6.QtDataVisualization.Q3DSurface.axisYChanged(axis)
Parameters

axisPySide6.QtDataVisualization.QValue3DAxis

PySide6.QtDataVisualization.Q3DSurface.axisZ()
Return type

PySide6.QtDataVisualization.QValue3DAxis

See also

setAxisZ()

PySide6.QtDataVisualization.Q3DSurface.axisZChanged(axis)
Parameters

axisPySide6.QtDataVisualization.QValue3DAxis

PySide6.QtDataVisualization.Q3DSurface.flipHorizontalGrid()
Return type

bool

PySide6.QtDataVisualization.Q3DSurface.flipHorizontalGridChanged(flip)
Parameters

flip – bool

PySide6.QtDataVisualization.Q3DSurface.releaseAxis(axis)
Parameters

axisPySide6.QtDataVisualization.QValue3DAxis

Releases the ownership of the axis back to the caller, if it is added to this graph. If the released axis is in use, a new default axis will be created and set active.

If the default axis is released and added back later, it behaves as any other axis would.

PySide6.QtDataVisualization.Q3DSurface.removeSeries(series)
Parameters

seriesPySide6.QtDataVisualization.QSurface3DSeries

Removes the series from the graph.

PySide6.QtDataVisualization.Q3DSurface.selectedSeries()
Return type

PySide6.QtDataVisualization.QSurface3DSeries

PySide6.QtDataVisualization.Q3DSurface.selectedSeriesChanged(series)
Parameters

seriesPySide6.QtDataVisualization.QSurface3DSeries

PySide6.QtDataVisualization.Q3DSurface.seriesList()
Return type

Returns the list of series added to this graph.

PySide6.QtDataVisualization.Q3DSurface.setAxisX(axis)
Parameters

axisPySide6.QtDataVisualization.QValue3DAxis

Sets axis as the active x-axis. Implicitly calls addAxis() to transfer the ownership of the axis to this graph.

If axis is null, a temporary default axis with no labels and an automatically adjusting range is created.

This temporary axis is destroyed if another axis is set explicitly to the same orientation.

PySide6.QtDataVisualization.Q3DSurface.setAxisY(axis)
Parameters

axisPySide6.QtDataVisualization.QValue3DAxis

Sets axis as the active y-axis. Implicitly calls addAxis() to transfer the ownership of the axis to this graph.

If axis is null, a temporary default axis with no labels and an automatically adjusting range is created.

This temporary axis is destroyed if another axis is set explicitly to the same orientation.

PySide6.QtDataVisualization.Q3DSurface.setAxisZ(axis)
Parameters

axisPySide6.QtDataVisualization.QValue3DAxis

Sets axis as the active z-axis. Implicitly calls addAxis() to transfer the ownership of the axis to this graph.

If axis is null, a temporary default axis with no labels and an automatically adjusting range is created.

This temporary axis is destroyed if another axis is set explicitly to the same orientation.

PySide6.QtDataVisualization.Q3DSurface.setFlipHorizontalGrid(flip)
Parameters

flip – bool