ImageItem ========= :class:`~pyqtgraph.ImageItem` displays images inside a :class:`~pyqtgraph.GraphicsView`, or a :class:`~pyqtgraph.ViewBox`, which may itself be part of a :class:`~pyqtgraph.PlotItem`. It is designed for rapid updates as needed for a video display. The supplied data is optionally scaled (see :func:`~pyqtgraph.ImageItem.setLevels`) and/or colored according to a lookup table (see :func:`~pyqtgraph.ImageItem.setLookupTable`. Data is provided as a NumPy array with an ordering of either * `col-major`, where the shape of the array represents (width, height) or * `row-major`, where the shape of the array represents (height, width). While `col-major` is the default, `row-major` ordering typically has the best performance. In either ordering, a third dimension can be added to the array to hold individual ``[R,G,B]`` or ``[R,G,B,A]`` components. Notes ----- Data ordering can be set for each ImageItem, or in the :ref:`global configuration options ` by :: pyqtgraph.setConfigOption('imageAxisOrder', 'row-major') # best performance An image can be placed into a plot area of a given extent directly through the :func:`~pyqtgraph.ImageItem.setRect` method or the ``rect`` keyword. This is internally realized through assigning a ``QtGui.QTransform``. For other translation, scaling or rotations effects that persist for all later image data, the user can also directly define and assign such a transform, as shown in the example below. ImageItem is frequently used in conjunction with :class:`~pyqtgraph.ColorBarItem` to provide a color map display and interactive level adjustments, or with :class:`~pyqtgraph.HistogramLUTItem` or :class:`~pyqtgraph.HistogramLUTWidget` for a full GUI to control the levels and lookup table used to display the image. If performance is critial, the following points may be worth investigating: * Use row-major ordering and C-contiguous image data. * Manually provide ``level`` information to avoid autoLevels sampling of the image. * Prefer `float32` to `float64` for floating point data, avoid NaN values. * Use lookup tables with <= 256 entries for false color images. * Avoid individual level adjustments RGB components. * Use the latest version of NumPy. Notably, SIMD code added in version 1.20 significantly improved performance on Linux platforms. * Enable Numba with ``pyqtgraph.setConfigOption('useNumba', True)``, although the JIT compilation will only accelerate repeated image display. .. _ImageItem_examples: Examples -------- .. literalinclude:: ../images/gen_example_imageitem_transform.py :lines: 19-28 :dedent: 8 .. image:: ../images/example_imageitem_transform.png :width: 49% :alt: Example of transformed image display .. autoclass:: pyqtgraph.ImageItem :members: .. automethod:: pyqtgraph.ImageItem.__init__