pyqtgraph/examples/VideoSpeedTest.py

# -*- coding: utf-8 -*-
"""
Tests the speed of image updates for an ImageItem and RawImageWidget.
The speed will generally depend on the type of data being shown, whether
it is being scaled and/or converted by lookup table, and whether OpenGL
is used by the view widget
"""

import argparse
import sys

import numpy as np

import pyqtgraph as pg
import pyqtgraph.ptime as ptime
from pyqtgraph.Qt import QtGui, QtCore, QT_LIB

import importlib
ui_template = importlib.import_module(f'VideoTemplate_{QT_LIB.lower()}')

try:
    import cupy as cp
    pg.setConfigOption("useCupy", True)
    _has_cupy = True
except ImportError:
    cp = None
    _has_cupy = False

parser = argparse.ArgumentParser(description="Benchmark for testing video performance")
parser.add_argument('--cuda', default=False, action='store_true', help="Use CUDA to process on the GPU", dest="cuda")
parser.add_argument('--dtype', default='uint8', choices=['uint8', 'uint16', 'float'], help="Image dtype (uint8, uint16, or float)")
parser.add_argument('--frames', default=3, type=int, help="Number of image frames to generate (default=3)")
parser.add_argument('--image-mode', default='mono', choices=['mono', 'rgb'], help="Image data mode (mono or rgb)", dest='image_mode')
parser.add_argument('--levels', default=None, type=lambda s: tuple([float(x) for x in s.split(',')]), help="min,max levels to scale monochromatic image dynamic range, or rmin,rmax,gmin,gmax,bmin,bmax to scale rgb")
parser.add_argument('--lut', default=False, action='store_true', help="Use color lookup table")
parser.add_argument('--lut-alpha', default=False, action='store_true', help="Use alpha color lookup table", dest='lut_alpha')
parser.add_argument('--size', default='512x512', type=lambda s: tuple([int(x) for x in s.split('x')]), help="WxH image dimensions default='512x512'")
args = parser.parse_args(sys.argv[1:])

#QtGui.QApplication.setGraphicsSystem('raster')
app = pg.mkQApp("Video Speed Test Example")

win = QtGui.QMainWindow()
win.setWindowTitle('pyqtgraph example: VideoSpeedTest')
ui = ui_template.Ui_MainWindow()
ui.setupUi(win)
win.show()

try:
    from pyqtgraph.widgets.RawImageWidget import RawImageGLWidget
except ImportError:
    RawImageGLWidget = None
    ui.rawGLRadio.setEnabled(False)
    ui.rawGLRadio.setText(ui.rawGLRadio.text() + " (OpenGL not available)")
else:
    ui.rawGLImg = RawImageGLWidget()
    ui.stack.addWidget(ui.rawGLImg)

# read in CLI args
ui.cudaCheck.setChecked(args.cuda and _has_cupy)
ui.cudaCheck.setEnabled(_has_cupy)
ui.framesSpin.setValue(args.frames)
ui.widthSpin.setValue(args.size[0])
ui.heightSpin.setValue(args.size[1])
ui.dtypeCombo.setCurrentText(args.dtype)
ui.rgbCheck.setChecked(args.image_mode=='rgb')
ui.maxSpin1.setOpts(value=255, step=1)
ui.minSpin1.setOpts(value=0, step=1)
levelSpins = [ui.minSpin1, ui.maxSpin1, ui.minSpin2, ui.maxSpin2, ui.minSpin3, ui.maxSpin3]
if args.cuda and _has_cupy:
    xp = cp
else:
    xp = np
if args.levels is None:
    ui.scaleCheck.setChecked(False)
    ui.rgbLevelsCheck.setChecked(False)
else:
    ui.scaleCheck.setChecked(True)
    if len(args.levels) == 2:
        ui.rgbLevelsCheck.setChecked(False)
        ui.minSpin1.setValue(args.levels[0])
        ui.maxSpin1.setValue(args.levels[1])
    elif len(args.levels) == 6:
        ui.rgbLevelsCheck.setChecked(True)
        for spin,val in zip(levelSpins, args.levels):
            spin.setValue(val)
    else:
        raise ValueError("levels argument must be 2 or 6 comma-separated values (got %r)" % (args.levels,))
ui.lutCheck.setChecked(args.lut)
ui.alphaCheck.setChecked(args.lut_alpha)


#ui.graphicsView.useOpenGL()  ## buggy, but you can try it if you need extra speed.

vb = pg.ViewBox()
ui.graphicsView.setCentralItem(vb)
vb.setAspectLocked()
img = pg.ImageItem()
vb.addItem(img)



LUT = None
def updateLUT():
    global LUT, ui
    dtype = ui.dtypeCombo.currentText()
    if dtype == 'uint8':
        n = 256
    else:
        n = 4096
    LUT = ui.gradient.getLookupTable(n, alpha=ui.alphaCheck.isChecked())
    if _has_cupy and xp == cp:
        LUT = cp.asarray(LUT)
ui.gradient.sigGradientChanged.connect(updateLUT)
updateLUT()

ui.alphaCheck.toggled.connect(updateLUT)

def updateScale():
    global ui, levelSpins
    if ui.rgbLevelsCheck.isChecked():
        for s in levelSpins[2:]:
            s.setEnabled(True)
    else:
        for s in levelSpins[2:]:
            s.setEnabled(False)

updateScale()

ui.rgbLevelsCheck.toggled.connect(updateScale)

cache = {}
def mkData():
    with pg.BusyCursor():
        global data, cache, ui, xp
        frames = ui.framesSpin.value()
        width = ui.widthSpin.value()
        height = ui.heightSpin.value()
        cacheKey = (ui.dtypeCombo.currentText(), ui.rgbCheck.isChecked(), frames, width, height)
        if cacheKey not in cache:
            if cacheKey[0] == 'uint8':
                dt = xp.uint8
                loc = 128
                scale = 64
                mx = 255
            elif cacheKey[0] == 'uint16':
                dt = xp.uint16
                loc = 4096
                scale = 1024
                mx = 2**16
            elif cacheKey[0] == 'float':
                dt = xp.float
                loc = 1.0
                scale = 0.1
                mx = 1.0
            else:
                raise ValueError(f"unable to handle dtype: {cacheKey[0]}")
            
            if ui.rgbCheck.isChecked():
                data = xp.random.normal(size=(frames,width,height,3), loc=loc, scale=scale)
                data = pg.gaussianFilter(data, (0, 6, 6, 0))
            else:
                data = xp.random.normal(size=(frames,width,height), loc=loc, scale=scale)
                data = pg.gaussianFilter(data, (0, 6, 6))
            if cacheKey[0] != 'float':
                data = xp.clip(data, 0, mx)
            data = data.astype(dt)
            data[:, 10, 10:50] = mx
            data[:, 9:12, 48] = mx
            data[:, 8:13, 47] = mx
            cache = {cacheKey: data} # clear to save memory (but keep one to prevent unnecessary regeneration)

        data = cache[cacheKey]
        updateLUT()
        updateSize()

def updateSize():
    global ui, vb
    frames = ui.framesSpin.value()
    width = ui.widthSpin.value()
    height = ui.heightSpin.value()
    dtype = xp.dtype(str(ui.dtypeCombo.currentText()))
    rgb = 3 if ui.rgbCheck.isChecked() else 1
    ui.sizeLabel.setText('%d MB' % (frames * width * height * rgb * dtype.itemsize / 1e6))
    vb.setRange(QtCore.QRectF(0, 0, width, height))


def noticeCudaCheck():
    global xp, cache
    cache = {}
    if ui.cudaCheck.isChecked():
        if _has_cupy:
            xp = cp
        else:
            xp = np
            ui.cudaCheck.setChecked(False)
    else:
        xp = np
    mkData()

mkData()


ui.dtypeCombo.currentIndexChanged.connect(mkData)
ui.rgbCheck.toggled.connect(mkData)
ui.widthSpin.editingFinished.connect(mkData)
ui.heightSpin.editingFinished.connect(mkData)
ui.framesSpin.editingFinished.connect(mkData)

ui.widthSpin.valueChanged.connect(updateSize)
ui.heightSpin.valueChanged.connect(updateSize)
ui.framesSpin.valueChanged.connect(updateSize)
ui.cudaCheck.toggled.connect(noticeCudaCheck)


ptr = 0
lastTime = ptime.time()
fps = None
def update():
    global ui, ptr, lastTime, fps, LUT, img
    if ui.lutCheck.isChecked():
        useLut = LUT
    else:
        useLut = None

    downsample = ui.downsampleCheck.isChecked()

    if ui.scaleCheck.isChecked():
        if ui.rgbLevelsCheck.isChecked():
            useScale = [
                [ui.minSpin1.value(), ui.maxSpin1.value()],
                [ui.minSpin2.value(), ui.maxSpin2.value()],
                [ui.minSpin3.value(), ui.maxSpin3.value()]]
        else:
            useScale = [ui.minSpin1.value(), ui.maxSpin1.value()]
    else:
        useScale = None

    if ui.rawRadio.isChecked():
        ui.rawImg.setImage(data[ptr%data.shape[0]], lut=useLut, levels=useScale)
        ui.stack.setCurrentIndex(1)
    elif ui.rawGLRadio.isChecked():
        ui.rawGLImg.setImage(data[ptr%data.shape[0]], lut=useLut, levels=useScale)
        ui.stack.setCurrentIndex(2)
    else:
        img.setImage(data[ptr%data.shape[0]], autoLevels=False, levels=useScale, lut=useLut, autoDownsample=downsample)
        ui.stack.setCurrentIndex(0)
        #img.setImage(data[ptr%data.shape[0]], autoRange=False)

    ptr += 1
    now = ptime.time()
    dt = now - lastTime
    lastTime = now
    if fps is None:
        fps = 1.0/dt
    else:
        s = np.clip(dt*3., 0, 1)
        fps = fps * (1-s) + (1.0/dt) * s
    ui.fpsLabel.setText('%0.2f fps' % fps)
    app.processEvents()  ## force complete redraw for every plot
timer = QtCore.QTimer()
timer.timeout.connect(update)
timer.start(0)



## Start Qt event loop unless running in interactive mode or using pyside.
if __name__ == '__main__':
    import sys
    if (sys.flags.interactive != 1) or not hasattr(QtCore, 'PYQT_VERSION'):
        QtGui.QApplication.instance().exec_()