class HistogramLUTItem(GraphicsWidget): """ This is a graphicsWidget which provides controls for adjusting the display of an image. Includes: - Image histogram - Movable region over histogram to select black/white levels - Gradient editor to define color lookup table for single-channel images """ sigLookupTableChanged = QtCore.Signal(object) sigLevelsChanged = QtCore.Signal(object) sigLevelChangeFinished = QtCore.Signal(object) def __init__(self, image=None, fillHistogram=True): """ If *image* (ImageItem) is provided, then the control will be automatically linked to the image and changes to the control will be immediately reflected in the image's appearance. By default, the histogram is rendered with a fill. For performance, set *fillHistogram* = False. """ GraphicsWidget.__init__(self) self.lut = None self.imageItem = lambda: None # fake a dead weakref self.layout = QtWidgets.QGraphicsGridLayout() self.setLayout(self.layout) self.layout.setContentsMargins(1,1,1,1) self.layout.setSpacing(0) self.vb = ViewBox(parent=self) self.vb.setMaximumWidth(152) self.vb.setMinimumWidth(45) self.vb.setMouseEnabled(x=False, y=True) self.gradient = GradientEditorItem() self.gradient.setOrientation('right') self.gradient.loadPreset('grey') self.region = LinearRegionItem([0, 1], LinearRegionItem.Horizontal) self.region.setZValue(1000) self.vb.addItem(self.region) self.axis = AxisItem('left', linkView=self.vb, maxTickLength=-10, parent=self) self.layout.addItem(self.axis, 0, 0) self.layout.addItem(self.vb, 0, 1) self.layout.addItem(self.gradient, 0, 2) self.range = None self.gradient.setFlag(self.gradient.ItemStacksBehindParent) self.vb.setFlag(self.gradient.ItemStacksBehindParent) #self.grid = GridItem() #self.vb.addItem(self.grid) self.gradient.sigGradientChanged.connect(self.gradientChanged) self.region.sigRegionChanged.connect(self.regionChanging) self.region.sigRegionChangeFinished.connect(self.regionChanged) self.vb.sigRangeChanged.connect(self.viewRangeChanged) self.plot = PlotDataItem() self.plot.rotate(90) self.fillHistogram(fillHistogram) self.vb.addItem(self.plot) self.autoHistogramRange() if image is not None: self.setImageItem(image) #self.setSizePolicy(QtWidgets.QSizePolicy.Preferred, QtWidgets.QSizePolicy.Expanding) def fillHistogram(self, fill=True, level=0.0, color=(100, 100, 200)): if fill: self.plot.setFillLevel(level) self.plot.setFillBrush(color) else: self.plot.setFillLevel(None) #def sizeHint(self, *args): #return QtCore.QSizeF(115, 200) def paint(self, p, *args): pen = self.region.lines[0].pen rgn = self.getLevels() p1 = self.vb.mapFromViewToItem(self, Point(self.vb.viewRect().center().x(), rgn[0])) p2 = self.vb.mapFromViewToItem(self, Point(self.vb.viewRect().center().x(), rgn[1])) gradRect = self.gradient.mapRectToParent(self.gradient.gradRect.rect()) for pen in [fn.mkPen('k', width=3), pen]: p.setPen(pen) p.drawLine(p1, gradRect.bottomLeft()) p.drawLine(p2, gradRect.topLeft()) p.drawLine(gradRect.topLeft(), gradRect.topRight()) p.drawLine(gradRect.bottomLeft(), gradRect.bottomRight()) #p.drawRect(self.boundingRect()) def setHistogramRange(self, mn, mx, padding=0.1): """Set the Y range on the histogram plot. This disables auto-scaling.""" self.vb.enableAutoRange(self.vb.YAxis, False) self.vb.setYRange(mn, mx, padding) #d = mx-mn #mn -= d*padding #mx += d*padding #self.range = [mn,mx] #self.updateRange() #self.vb.setMouseEnabled(False, True) #self.region.setBounds([mn,mx]) def autoHistogramRange(self): """Enable auto-scaling on the histogram plot.""" self.vb.enableAutoRange(self.vb.XYAxes) #self.range = None #self.updateRange() #self.vb.setMouseEnabled(False, False) #def updateRange(self): #self.vb.autoRange() #if self.range is not None: #self.vb.setYRange(*self.range) #vr = self.vb.viewRect() #self.region.setBounds([vr.top(), vr.bottom()]) def setImageItem(self, img): """Set an ImageItem to have its levels and LUT automatically controlled by this HistogramLUTItem. """ self.imageItem = weakref.ref(img) img.sigImageChanged.connect(self.imageChanged) img.setLookupTable(self.getLookupTable) ## send function pointer, not the result #self.gradientChanged() self.regionChanged() self.imageChanged(autoLevel=True) #self.vb.autoRange() def viewRangeChanged(self): self.update() def gradientChanged(self): if self.imageItem() is not None: if self.gradient.isLookupTrivial(): self.imageItem().setLookupTable(None) #lambda x: x.astype(np.uint8)) else: self.imageItem().setLookupTable(self.getLookupTable) ## send function pointer, not the result self.lut = None #if self.imageItem is not None: #self.imageItem.setLookupTable(self.gradient.getLookupTable(512)) self.sigLookupTableChanged.emit(self) def getLookupTable(self, img=None, n=None, alpha=None): """Return a lookup table from the color gradient defined by this HistogramLUTItem. """ if n is None: if img.dtype == np.uint8: n = 256 else: n = 512 if self.lut is None: self.lut = self.gradient.getLookupTable(n, alpha=alpha) return self.lut def regionChanged(self): #if self.imageItem is not None: #self.imageItem.setLevels(self.region.getRegion()) self.sigLevelChangeFinished.emit(self) #self.update() def regionChanging(self): if self.imageItem() is not None: self.imageItem().setLevels(self.region.getRegion()) self.sigLevelsChanged.emit(self) self.update() def imageChanged(self, autoLevel=False, autoRange=False): profiler = debug.Profiler() img = self.imageItem().image if img is None: histRange = None else: histRange = (np.nanmin(img), np.nanmax(img)) h = self.imageItem().getHistogram(range=histRange) profiler('get histogram') if h[0] is None: return self.plot.setData(*h) profiler('set plot') if autoLevel: mn = h[0][0] mx = h[0][-1] self.region.setRegion([mn, mx]) profiler('set region') def getLevels(self): """Return the min and max levels. """ return self.region.getRegion() def setLevels(self, mn, mx): """Set the min and max levels. """ self.region.setRegion([mn, mx])
class HorHistogramLUTItem(GraphicsWidget): """ This is a graphicsWidget which provides controls for adjusting the display of an image. Includes: - Image histogram - Movable region over histogram to select black/white levels - Gradient editor to define color lookup table for single-channel images """ sigLookupTableChanged = QtCore.pyqtSignal(object) sigLevelsChanged = QtCore.pyqtSignal(object) sigLevelChangeFinished = QtCore.pyqtSignal(object) def __init__(self, image=None, fillHistogram=False, orientation='horizontal'): """ If *image* (ImageItem) is provided, then the control will be automatically linked to the image and changes to the control will be immediately reflected in the image's appearance. By default, the histogram is rendered with a fill. For performance, set *fillHistogram* = False. """ GraphicsWidget.__init__(self) self.lut = None self.imageItem = None self.first_image = True self.percentageLevel = False self.orientation = orientation self.range = None self.layout = QtGui.QGraphicsGridLayout() self.setLayout(self.layout) self.layout.setContentsMargins(1, 1, 1, 1) self.layout.setSpacing(0) self.vb = ViewBox() self.gradient = GradientEditorItem() self.gradient.loadPreset('grey') if orientation == 'horizontal': self.vb.setMouseEnabled(x=True, y=False) self.vb.setMaximumHeight(30) self.vb.setMinimumHeight(45) self.gradient.setOrientation('top') self.region = LogarithmRegionItem([0, 1], LinearRegionItem.Vertical) self.layout.addItem(self.vb, 1, 0) self.layout.addItem(self.gradient, 0, 0) self.gradient.setFlag(self.gradient.ItemStacksBehindParent) self.vb.setFlag(self.gradient.ItemStacksBehindParent) elif orientation == 'vertical': self.vb.setMouseEnabled(x=False, y=True) self.vb.setMaximumWidth(30) self.vb.setMinimumWidth(45) self.gradient.setOrientation('right') self.region = LogarithmRegionItem([0, 1], LinearRegionItem.Horizontal) self.layout.addItem(self.vb, 0, 0) self.layout.addItem(self.gradient, 0, 1) self.gradient.setFlag(self.gradient.ItemStacksBehindParent) self.vb.setFlag(self.gradient.ItemStacksBehindParent) self.region.setZValue(1000) self.vb.addItem(self.region) self.vb.setMenuEnabled(False) #self.grid = GridItem() #self.vb.addItem(self.grid) self.gradient.sigGradientChanged.connect(self.gradientChanged) self.region.sigRegionChanged.connect(self.regionChanging) self.region.sigRegionChangeFinished.connect(self.regionChanged) self.vb.sigRangeChanged.connect(self.viewRangeChanged) self.plot = PlotDataItem() if self.orientation == 'horizontal': self.plot.setLogMode(yMode=True, xMode=False) elif self.orientation == 'vertical': self.plot.setLogMode(yMode=False, xMode=True) self.vb.invertX(True) self.vb.autoRange() self.fillHistogram(fillHistogram) self.plot.setPen(pg.mkPen(color=(50, 150, 50), size=3)) self.vb.addItem(self.plot) self.autoHistogramRange() if image is not None: self.setImageItem(image) #self.setSizePolicy(QtGui.QSizePolicy.Preferred, QtGui.QSizePolicy.Expanding) self.vb.mouseClickEvent = self.empty_function self.vb.mouseDragEvent = self.empty_function self.vb.mouseDoubleClickEvent = self.empty_function self.vb.wheelEvent = self.empty_function def fillHistogram(self, fill=True, level=0.0, color=(100, 100, 200)): if fill: self.plot.setFillLevel(level) self.plot.setFillBrush(color) else: self.plot.setFillLevel(None) #def sizeHint(self, *args): #return QtCore.QSizeF(115, 200) def paint(self, p, *args): pen = self.region.lines[0].pen rgn = self.getLevels() if self.orientation == 'horizontal': p1 = self.vb.mapFromViewToItem(self, Point(rgn[0], self.vb.viewRect().center().y())) p2 = self.vb.mapFromViewToItem(self, Point(rgn[1], self.vb.viewRect().center().y())) gradRect = self.gradient.mapRectToParent(self.gradient.gradRect.rect()) for pen in [fn.mkPen('k', width=3), pen]: p.setPen(pen) p.drawLine(p1, gradRect.bottomLeft()) p.drawLine(p2, gradRect.bottomRight()) p.drawLine(gradRect.bottomLeft(), gradRect.topLeft()) p.drawLine(gradRect.bottomRight(), gradRect.topRight()) elif self.orientation == 'vertical': p1 = self.vb.mapFromViewToItem(self, Point(self.vb.viewRect().center().x(), rgn[0])) p2 = self.vb.mapFromViewToItem(self, Point(self.vb.viewRect().center().x(), rgn[1])) gradRect = self.gradient.mapRectToParent(self.gradient.gradRect.rect()) for pen in [fn.mkPen('k', width=3), pen]: p.setPen(pen) p.drawLine(p1, gradRect.bottomLeft()) p.drawLine(p2, gradRect.topLeft()) p.drawLine(gradRect.topLeft(), gradRect.topRight()) p.drawLine(gradRect.bottomLeft(), gradRect.bottomRight()) def setHistogramRange(self, mn, mx, padding=0.1): """Set the Y range on the histogram plot. This disables auto-scaling.""" self.vb.enableAutoRange(self.vb.YAxis, False) if self.orientation == 'horizontal': self.vb.setXRange(mn, mx, padding) elif self.orientation == 'vertical': self.vb.setYrange(mn, mx, padding) #mn -= d*padding #mx += d*padding #self.range = [mn,mx] #self.updateRange() #self.vb.setMouseEnabled(False, True) #self.region.setBounds([mn,mx]) def autoHistogramRange(self): """Enable auto-scaling on the histogram plot.""" self.vb.enableAutoRange(self.vb.XAxis, True) self.vb.enableAutoRange(self.vb.YAxis, True) #self.range = None #self.updateRange() #self.vb.setMouseEnabled(False, False) #def updateRange(self): #self.vb.autoRange() #if self.range is not None: #self.vb.setYRange(*self.range) #vr = self.vb.viewRect() #self.region.setBounds([vr.top(), vr.bottom()]) def setImageItem(self, img): self.imageItem = img img.sigImageChanged.connect(self.imageChanged) img.setLookupTable(self.getLookupTable) ## send function pointer, not the result #self.gradientChanged() self.regionChanged() self.imageChanged() #self.vb.autoRange() def viewRangeChanged(self): self.update() def gradientChanged(self): if self.imageItem is not None: if self.gradient.isLookupTrivial(): self.imageItem.setLookupTable(None) #lambda x: x.astype(np.uint8)) else: self.imageItem.setLookupTable(self.getLookupTable) ## send function pointer, not the result self.lut = None #if self.imageItem is not None: #self.imageItem.setLookupTable(self.gradient.getLookupTable(512)) self.sigLookupTableChanged.emit(self) def getLookupTable(self, img=None, n=None, alpha=None): if n is None: if img.dtype == np.uint8: n = 256 else: n = 512 if self.lut is None: self.lut = self.gradient.getLookupTable(n, alpha=alpha) return self.lut def regionChanged(self): #if self.imageItem is not None: #self.imageItem.setLevels(self.region.getRegion()) self.sigLevelChangeFinished.emit(self) #self.update() def regionChanging(self): if self.imageItem is not None: self.imageItem.setLevels(np.exp(self.region.getRegion())) self.sigLevelsChanged.emit(self) self.update() def imageChanged(self, autoRange=False): prof = debug.Profiler('HistogramLUTItem.imageChanged', disabled=True) h = list(self.imageItem.getHistogram(bins=1000)) prof.mark('get histogram') if h[0] is None: return h[1][1:] = np.log(h[1][1:]) h[0][1:] = np.log(h[0][1:]) h[0][0] = 0 h[1][0] = h[1][1] if self.orientation == 'horizontal': self.plot.setData(h[0], h[1]) elif self.orientation == 'vertical': self.plot.setData(h[1], h[0]) self.hist_x_range = np.max(h[0]) - np.min(h[0]) # if self.percentageLevel: # if self.first_image: # self.region.setRegion([h[0, 0], h[0, -1]]) # self.old_hist_x_range = self.hist_x_range # self.first_image = False # else: # region_fraction = np.array(self.region.getRegion()) / self.old_hist_x_range # self.region.setRegion(region_fraction * self.hist_x_range) # self.old_hist_x_range = self.hist_x_range # # #self.vb.setRange(yRange=[0, 1.2 * np.max(h[1])]) def getLevels(self): return self.region.getRegion() def setLevels(self, mn, mx): self.region.setRegion([mn, mx]) def empty_function(self, *args): pass
class HistogramLUTItem(GraphicsWidget): """ This is a graphicsWidget which provides controls for adjusting the display of an image. Includes: - Image histogram - Movable region over histogram to select black/white levels - Gradient editor to define color lookup table for single-channel images """ sigLookupTableChanged = QtCore.Signal(object) sigLevelsChanged = QtCore.Signal(object) sigLevelChangeFinished = QtCore.Signal(object) def __init__(self, image=None, fillHistogram=False, orientation='horizontal', autoLevel=None): """ If *image* (ImageItem) is provided, then the control will be automatically linked to the image and changes to the control will be immediately reflected in the image's appearance. By default, the histogram is rendered with a fill. For performance, set *fillHistogram* = False. """ GraphicsWidget.__init__(self) self.lut = None self.imageItem = None self.first_image = True self.percentageLevel = False self.orientation = orientation self.autoLevel = autoLevel self.layout = QtWidgets.QGraphicsGridLayout() self.setLayout(self.layout) self.layout.setContentsMargins(1, 1, 1, 1) self.layout.setSpacing(0) self.vb = ViewBox() self.gradient = GradientEditorItem() self.gradient.loadPreset('grey') if orientation == 'horizontal': self.vb.setMouseEnabled(x=True, y=False) self.vb.setMaximumHeight(30) self.vb.setMinimumHeight(45) self.gradient.setOrientation('top') self.region = LogarithmRegionItem([0, 1], LinearRegionItem.Vertical) self.layout.addItem(self.vb, 1, 0) self.layout.addItem(self.gradient, 0, 0) self.gradient.setFlag(self.gradient.ItemStacksBehindParent) self.vb.setFlag(self.gradient.ItemStacksBehindParent) elif orientation == 'vertical': self.vb.setMouseEnabled(x=False, y=True) self.vb.setMaximumWidth(30) self.vb.setMinimumWidth(45) self.gradient.setOrientation('right') self.region = LogarithmRegionItem([0, 1], LinearRegionItem.Horizontal) self.layout.addItem(self.vb, 0, 0) self.layout.addItem(self.gradient, 0, 1) self.gradient.setFlag(self.gradient.ItemStacksBehindParent) self.vb.setFlag(self.gradient.ItemStacksBehindParent) self.region.setZValue(1000) self.vb.addItem(self.region) self.vb.setMenuEnabled(False) # self.grid = GridItem() # self.vb.addItem(self.grid) self.gradient.sigGradientChanged.connect(self.gradientChanged) self.region.sigRegionChanged.connect(self.regionChanging) self.region.sigRegionChangeFinished.connect(self.regionChanged) self.vb.sigRangeChanged.connect(self.viewRangeChanged) self.plot = PlotDataItem() self.vb.autoRange() self.fillHistogram(fillHistogram) self.plot.setPen(pg.mkPen(color=(50, 150, 50), size=3)) self.vb.addItem(self.plot) self.autoHistogramRange() if image is not None: self.setImageItem(image) # self.setSizePolicy(QtWidgets.QSizePolicy.Preferred, QtWidgets.QSizePolicy.Expanding) self.vb.mouseClickEvent = self.empty_function self.vb.mouseDragEvent = self.empty_function self.vb.mouseDoubleClickEvent = self.empty_function self.vb.wheelEvent = self.empty_function def fillHistogram(self, fill=True, level=0.0, color=(100, 100, 200)): if fill: self.plot.setFillLevel(level) self.plot.setFillBrush(color) else: self.plot.setFillLevel(None) # def sizeHint(self, *args): # return QtCore.QSizeF(115, 200) def paint(self, p, *args): pen = self.region.lines[0].pen rgn = self.getLevels() if self.orientation == 'horizontal': p1 = self.vb.mapFromViewToItem(self, Point(rgn[0], self.vb.viewRect().center().y())) p2 = self.vb.mapFromViewToItem(self, Point(rgn[1], self.vb.viewRect().center().y())) gradRect = self.gradient.mapRectToParent(self.gradient.gradRect.rect()) for pen in [fn.mkPen('k', width=3), pen]: p.setPen(pen) p.drawLine(p1, gradRect.bottomLeft()) p.drawLine(p2, gradRect.bottomRight()) p.drawLine(gradRect.bottomLeft(), gradRect.topLeft()) p.drawLine(gradRect.bottomRight(), gradRect.topRight()) elif self.orientation == 'vertical': p1 = self.vb.mapFromViewToItem(self, Point(self.vb.viewRect().center().x(), rgn[0])) p2 = self.vb.mapFromViewToItem(self, Point(self.vb.viewRect().center().x(), rgn[1])) gradRect = self.gradient.mapRectToParent(self.gradient.gradRect.rect()) for pen in [fn.mkPen('k', width=3), pen]: p.setPen(pen) p.drawLine(p1, gradRect.bottomLeft()) p.drawLine(p2, gradRect.topLeft()) p.drawLine(gradRect.topLeft(), gradRect.topRight()) p.drawLine(gradRect.bottomLeft(), gradRect.bottomRight()) def setHistogramRange(self, mn, mx, padding=0.1): """Set the Y range on the histogram plot. This disables auto-scaling.""" self.vb.enableAutoRange(self.vb.YAxis, False) if self.orientation == 'horizontal': self.vb.setXRange(mn, mx, padding) elif self.orientation == 'vertical': self.vb.setYrange(mn, mx, padding) # mn -= d*padding # mx += d*padding # self.range = [mn,mx] # self.updateRange() # self.vb.setMouseEnabled(False, True) # self.region.setBounds([mn,mx]) def autoHistogramRange(self): """Enable auto-scaling on the histogram plot.""" self.vb.enableAutoRange(self.vb.XAxis, True) self.vb.enableAutoRange(self.vb.YAxis, True) # self.range = None # self.updateRange() # self.vb.setMouseEnabled(False, False) # def updateRange(self): # self.vb.autoRange() # if self.range is not None: # self.vb.setYRange(*self.range) # vr = self.vb.viewRect() # self.region.setBounds([vr.top(), vr.bottom()]) def setImageItem(self, img): self.imageItem = img img.sigImageChanged.connect(self.imageChanged) img.setLookupTable(self.getLookupTable) ## send function pointer, not the result # self.gradientChanged() self.regionChanged() self.imageChanged() # self.vb.autoRange() def gradientChanged(self): if self.imageItem is not None: if self.gradient.isLookupTrivial(): self.imageItem.setLookupTable(None) # lambda x: x.astype(np.uint8)) else: self.imageItem.setLookupTable(self.getLookupTable) ## send function pointer, not the result self.lut = None # if self.imageItem is not None: # self.imageItem.setLookupTable(self.gradient.getLookupTable(512)) self.sigLookupTableChanged.emit(self) def getLookupTable(self, img=None, n=None, alpha=None): if n is None: if img.dtype == np.uint8: n = 256 else: n = 512 if self.lut is None: self.lut = self.gradient.getLookupTable(n, alpha=alpha) return self.lut def regionChanged(self): self.sigLevelChangeFinished.emit(self) def regionChanging(self): if self.imageItem is not None: self.imageItem.setLevels(np.exp(self.region.getRegion())) self.sigLevelsChanged.emit(self) self.update() def imageChanged(self, autoRange=False): hist_x, hist_y = list(self.imageItem.getHistogram(bins=3000)) if hist_x is None: return hist_x, hist_y = np.array(hist_x), np.array(hist_y) hist_x = hist_x[np.where(hist_y>0)] hist_y = hist_y[np.where(hist_y>0)] self.hist_x = hist_x self.hist_y = hist_y hist_y_log = np.log(hist_y[1:]) hist_x_log = np.log(hist_x[1:]) if self.orientation == 'horizontal': self.plot.setData(hist_x_log, hist_y_log) elif self.orientation == 'vertical': self.plot.setData(hist_y_log, hist_x_log) def getLevels(self): return self.region.getRegion() def getExpLevels(self): rgn = self.getLevels() return np.exp(rgn[0]), np.exp(rgn[1]) def setLevels(self, mn, mx): self.region.setRegion([mn, mx]) if self.imageItem is not None: self.imageItem.setLevels(np.exp(self.region.getRegion())) def empty_function(self, *args): pass
class HistogramLUTItem(GraphicsWidget): """ This is a graphicsWidget which provides controls for adjusting the display of an image. Includes: - Image histogram - Movable region over histogram to select black/white levels - Gradient editor to define color lookup table for single-channel images """ sigLookupTableChanged = QtCore.Signal(object) sigLevelsChanged = QtCore.Signal(object) sigLevelChangeFinished = QtCore.Signal(object) def __init__(self, image=None, fillHistogram=True): """ If *image* (ImageItem) is provided, then the control will be automatically linked to the image and changes to the control will be immediately reflected in the image's appearance. By default, the histogram is rendered with a fill. For performance, set *fillHistogram* = False. """ GraphicsWidget.__init__(self) self.lut = None self.imageItem = lambda: None # fake a dead weakref self.layout = QtWidgets.QGraphicsGridLayout() self.setLayout(self.layout) self.layout.setContentsMargins(1, 1, 1, 1) self.layout.setSpacing(0) self.vb = ViewBox(parent=self) self.vb.setMaximumWidth(152) self.vb.setMinimumWidth(45) self.vb.setMouseEnabled(x=False, y=True) self.gradient = GradientEditorItem() self.gradient.setOrientation('right') self.gradient.loadPreset('grey') self.region = LinearRegionItem([0, 1], LinearRegionItem.Horizontal) self.region.setZValue(1000) self.vb.addItem(self.region) self.axis = AxisItem('left', linkView=self.vb, maxTickLength=-10, parent=self) self.layout.addItem(self.axis, 0, 0) self.layout.addItem(self.vb, 0, 1) self.layout.addItem(self.gradient, 0, 2) self.range = None self.gradient.setFlag(self.gradient.ItemStacksBehindParent) self.vb.setFlag(self.gradient.ItemStacksBehindParent) #self.grid = GridItem() #self.vb.addItem(self.grid) self.gradient.sigGradientChanged.connect(self.gradientChanged) self.region.sigRegionChanged.connect(self.regionChanging) self.region.sigRegionChangeFinished.connect(self.regionChanged) self.vb.sigRangeChanged.connect(self.viewRangeChanged) self.plot = PlotDataItem() self.plot.rotate(90) self.fillHistogram(fillHistogram) self.vb.addItem(self.plot) self.autoHistogramRange() if image is not None: self.setImageItem(image) #self.setSizePolicy(QtWidgets.QSizePolicy.Preferred, QtWidgets.QSizePolicy.Expanding) def fillHistogram(self, fill=True, level=0.0, color=(100, 100, 200)): if fill: self.plot.setFillLevel(level) self.plot.setFillBrush(color) else: self.plot.setFillLevel(None) #def sizeHint(self, *args): #return QtCore.QSizeF(115, 200) def paint(self, p, *args): pen = self.region.lines[0].pen rgn = self.getLevels() p1 = self.vb.mapFromViewToItem( self, Point(self.vb.viewRect().center().x(), rgn[0])) p2 = self.vb.mapFromViewToItem( self, Point(self.vb.viewRect().center().x(), rgn[1])) gradRect = self.gradient.mapRectToParent(self.gradient.gradRect.rect()) for pen in [fn.mkPen('k', width=3), pen]: p.setPen(pen) p.drawLine(p1, gradRect.bottomLeft()) p.drawLine(p2, gradRect.topLeft()) p.drawLine(gradRect.topLeft(), gradRect.topRight()) p.drawLine(gradRect.bottomLeft(), gradRect.bottomRight()) #p.drawRect(self.boundingRect()) def setHistogramRange(self, mn, mx, padding=0.1): """Set the Y range on the histogram plot. This disables auto-scaling.""" self.vb.enableAutoRange(self.vb.YAxis, False) self.vb.setYRange(mn, mx, padding) #d = mx-mn #mn -= d*padding #mx += d*padding #self.range = [mn,mx] #self.updateRange() #self.vb.setMouseEnabled(False, True) #self.region.setBounds([mn,mx]) def autoHistogramRange(self): """Enable auto-scaling on the histogram plot.""" self.vb.enableAutoRange(self.vb.XYAxes) #self.range = None #self.updateRange() #self.vb.setMouseEnabled(False, False) #def updateRange(self): #self.vb.autoRange() #if self.range is not None: #self.vb.setYRange(*self.range) #vr = self.vb.viewRect() #self.region.setBounds([vr.top(), vr.bottom()]) def setImageItem(self, img): """Set an ImageItem to have its levels and LUT automatically controlled by this HistogramLUTItem. """ self.imageItem = weakref.ref(img) img.sigImageChanged.connect(self.imageChanged) img.setLookupTable( self.getLookupTable) ## send function pointer, not the result #self.gradientChanged() self.regionChanged() self.imageChanged(autoLevel=True) #self.vb.autoRange() def viewRangeChanged(self): self.update() def gradientChanged(self): if self.imageItem() is not None: if self.gradient.isLookupTrivial(): self.imageItem().setLookupTable( None) #lambda x: x.astype(np.uint8)) else: self.imageItem().setLookupTable( self.getLookupTable ) ## send function pointer, not the result self.lut = None #if self.imageItem is not None: #self.imageItem.setLookupTable(self.gradient.getLookupTable(512)) self.sigLookupTableChanged.emit(self) def getLookupTable(self, img=None, n=None, alpha=None): """Return a lookup table from the color gradient defined by this HistogramLUTItem. """ if n is None: if img.dtype == np.uint8: n = 256 else: n = 512 if self.lut is None: self.lut = self.gradient.getLookupTable(n, alpha=alpha) return self.lut def regionChanged(self): #if self.imageItem is not None: #self.imageItem.setLevels(self.region.getRegion()) self.sigLevelChangeFinished.emit(self) #self.update() def regionChanging(self): if self.imageItem() is not None: self.imageItem().setLevels(self.region.getRegion()) self.sigLevelsChanged.emit(self) self.update() def imageChanged(self, autoLevel=False, autoRange=False): profiler = debug.Profiler() img = self.imageItem().image if img is None: histRange = None else: histRange = (np.nanmin(img), np.nanmax(img)) h = self.imageItem().getHistogram(range=histRange) profiler('get histogram') if h[0] is None: return self.plot.setData(*h) profiler('set plot') if autoLevel: mn = h[0][0] mx = h[0][-1] self.region.setRegion([mn, mx]) profiler('set region') def getLevels(self): """Return the min and max levels. """ return self.region.getRegion() def setLevels(self, mn, mx): """Set the min and max levels. """ self.region.setRegion([mn, mx])