from pyqtgraph.Qt import QtGui, QtCore from scipy.fftpack import fft import numpy as np import scipy.stats from .GraphicsObject import GraphicsObject import pyqtgraph.functions as fn from pyqtgraph import debug from pyqtgraph.Point import Point import pyqtgraph as pg import struct, sys __all__ = ['PlotCurveItem'] class PlotCurveItem(GraphicsObject): """ Class representing a single plot curve. Instances of this class are created automatically as part of PlotDataItem; these rarely need to be instantiated directly. Features: - Fast data update - FFT display mode (accessed via PlotItem context menu) - Fill under curve - Mouse interaction ==================== =============================================== **Signals:** sigPlotChanged(self) Emitted when the data being plotted has changed sigClicked(self) Emitted when the curve is clicked ==================== =============================================== """ sigPlotChanged = QtCore.Signal(object) sigClicked = QtCore.Signal(object) def __init__(self, *args, **kargs): """ Forwards all arguments to :func:`setData `. Some extra arguments are accepted as well: ============== ======================================================= **Arguments:** parent The parent GraphicsObject (optional) clickable If True, the item will emit sigClicked when it is clicked on. Defaults to False. ============== ======================================================= """ GraphicsObject.__init__(self, kargs.get('parent', None)) self.clear() self.path = None self.fillPath = None self._boundsCache = [None, None] ## this is disastrous for performance. #self.setCacheMode(QtGui.QGraphicsItem.DeviceCoordinateCache) self.metaData = {} self.opts = { 'pen': fn.mkPen('w'), 'shadowPen': None, 'fillLevel': None, 'brush': None, 'stepMode': False, 'name': None, 'antialias': pg.getConfigOption('antialias'), } self.setClickable(kargs.get('clickable', False)) self.setData(*args, **kargs) def implements(self, interface=None): ints = ['plotData'] if interface is None: return ints return interface in ints def setClickable(self, s): """Sets whether the item responds to mouse clicks.""" self.clickable = s def getData(self): return self.xData, self.yData def dataBounds(self, ax, frac=1.0, orthoRange=None): ## Need this to run as fast as possible. ## check cache first: cache = self._boundsCache[ax] if cache is not None and cache[0] == (frac, orthoRange): return cache[1] (x, y) = self.getData() if x is None or len(x) == 0: return (None, None) if ax == 0: d = x d2 = y elif ax == 1: d = y d2 = x ## If an orthogonal range is specified, mask the data now if orthoRange is not None: mask = (d2 >= orthoRange[0]) * (d2 <= orthoRange[1]) d = d[mask] d2 = d2[mask] ## Get min/max (or percentiles) of the requested data range if frac >= 1.0: b = (d.min(), d.max()) elif frac <= 0.0: raise Exception("Value for parameter 'frac' must be > 0. (got %s)" % str(frac)) else: b = (scipy.stats.scoreatpercentile(d, 50 - (frac * 50)), scipy.stats.scoreatpercentile(d, 50 + (frac * 50))) ## adjust for fill level if ax == 1 and self.opts['fillLevel'] is not None: b = (min(b[0], self.opts['fillLevel']), max(b[1], self.opts['fillLevel'])) ## Add pen width only if it is non-cosmetic. pen = self.opts['pen'] spen = self.opts['shadowPen'] if not pen.isCosmetic(): b = (b[0] - pen.widthF()*0.7072, b[1] + pen.widthF()*0.7072) if spen is not None and not spen.isCosmetic() and spen.style() != QtCore.Qt.NoPen: b = (b[0] - spen.widthF()*0.7072, b[1] + spen.widthF()*0.7072) self._boundsCache[ax] = [(frac, orthoRange), b] return b def pixelPadding(self): pen = self.opts['pen'] spen = self.opts['shadowPen'] w = 0 if pen.isCosmetic(): w += pen.widthF()*0.7072 if spen is not None and spen.isCosmetic() and spen.style() != QtCore.Qt.NoPen: w = max(w, spen.widthF()*0.7072) return w def boundingRect(self): if self._boundingRect is None: (xmn, xmx) = self.dataBounds(ax=0) (ymn, ymx) = self.dataBounds(ax=1) if xmn is None: return QtCore.QRectF() px = py = 0.0 pxPad = self.pixelPadding() if pxPad > 0: # determine length of pixel in local x, y directions px, py = self.pixelVectors() px = 0 if px is None else px.length() py = 0 if py is None else py.length() # return bounds expanded by pixel size px *= pxPad py *= pxPad #px += self._maxSpotWidth * 0.5 #py += self._maxSpotWidth * 0.5 self._boundingRect = QtCore.QRectF(xmn-px, ymn-py, (2*px)+xmx-xmn, (2*py)+ymx-ymn) return self._boundingRect def viewTransformChanged(self): self.invalidateBounds() self.prepareGeometryChange() #def boundingRect(self): #if self._boundingRect is None: #(x, y) = self.getData() #if x is None or y is None or len(x) == 0 or len(y) == 0: #return QtCore.QRectF() #if self.opts['shadowPen'] is not None: #lineWidth = (max(self.opts['pen'].width(), self.opts['shadowPen'].width()) + 1) #else: #lineWidth = (self.opts['pen'].width()+1) #pixels = self.pixelVectors() #if pixels == (None, None): #pixels = [Point(0,0), Point(0,0)] #xmin = x.min() #xmax = x.max() #ymin = y.min() #ymax = y.max() #if self.opts['fillLevel'] is not None: #ymin = min(ymin, self.opts['fillLevel']) #ymax = max(ymax, self.opts['fillLevel']) #xmin -= pixels[0].x() * lineWidth #xmax += pixels[0].x() * lineWidth #ymin -= abs(pixels[1].y()) * lineWidth #ymax += abs(pixels[1].y()) * lineWidth #self._boundingRect = QtCore.QRectF(xmin, ymin, xmax-xmin, ymax-ymin) #return self._boundingRect def invalidateBounds(self): self._boundingRect = None self._boundsCache = [None, None] def setPen(self, *args, **kargs): """Set the pen used to draw the curve.""" self.opts['pen'] = fn.mkPen(*args, **kargs) self.invalidateBounds() self.update() def setShadowPen(self, *args, **kargs): """Set the shadow pen used to draw behind tyhe primary pen. This pen must have a larger width than the primary pen to be visible. """ self.opts['shadowPen'] = fn.mkPen(*args, **kargs) self.invalidateBounds() self.update() def setBrush(self, *args, **kargs): """Set the brush used when filling the area under the curve""" self.opts['brush'] = fn.mkBrush(*args, **kargs) self.invalidateBounds() self.update() def setFillLevel(self, level): """Set the level filled to when filling under the curve""" self.opts['fillLevel'] = level self.fillPath = None self.invalidateBounds() self.update() def setData(self, *args, **kargs): """ ============== ======================================================== **Arguments:** x, y (numpy arrays) Data to show pen Pen to use when drawing. Any single argument accepted by :func:`mkPen ` is allowed. shadowPen Pen for drawing behind the primary pen. Usually this is used to emphasize the curve by providing a high-contrast border. Any single argument accepted by :func:`mkPen ` is allowed. fillLevel (float or None) Fill the area 'under' the curve to *fillLevel* brush QBrush to use when filling. Any single argument accepted by :func:`mkBrush ` is allowed. antialias (bool) Whether to use antialiasing when drawing. This is disabled by default because it decreases performance. ============== ======================================================== If non-keyword arguments are used, they will be interpreted as setData(y) for a single argument and setData(x, y) for two arguments. """ self.updateData(*args, **kargs) def updateData(self, *args, **kargs): prof = debug.Profiler('PlotCurveItem.updateData', disabled=True) if len(args) == 1: kargs['y'] = args[0] elif len(args) == 2: kargs['x'] = args[0] kargs['y'] = args[1] if 'y' not in kargs or kargs['y'] is None: kargs['y'] = np.array([]) if 'x' not in kargs or kargs['x'] is None: kargs['x'] = np.arange(len(kargs['y'])) for k in ['x', 'y']: data = kargs[k] if isinstance(data, list): data = np.array(data) kargs[k] = data if not isinstance(data, np.ndarray) or data.ndim > 1: raise Exception("Plot data must be 1D ndarray.") if 'complex' in str(data.dtype): raise Exception("Can not plot complex data types.") prof.mark("data checks") #self.setCacheMode(QtGui.QGraphicsItem.NoCache) ## Disabling and re-enabling the cache works around a bug in Qt 4.6 causing the cached results to display incorrectly ## Test this bug with test_PlotWidget and zoom in on the animated plot self.invalidateBounds() self.prepareGeometryChange() self.informViewBoundsChanged() self.yData = kargs['y'].view(np.ndarray) self.xData = kargs['x'].view(np.ndarray) prof.mark('copy') if 'stepMode' in kargs: self.opts['stepMode'] = kargs['stepMode'] if self.opts['stepMode'] is True: if len(self.xData) != len(self.yData)+1: ## allow difference of 1 for step mode plots raise Exception("len(X) must be len(Y)+1 since stepMode=True (got %s and %s)" % (str(x.shape), str(y.shape))) else: if self.xData.shape != self.yData.shape: ## allow difference of 1 for step mode plots raise Exception("X and Y arrays must be the same shape--got %s and %s." % (str(x.shape), str(y.shape))) self.path = None self.fillPath = None #self.xDisp = self.yDisp = None if 'name' in kargs: self.opts['name'] = kargs['name'] if 'pen' in kargs: self.setPen(kargs['pen']) if 'shadowPen' in kargs: self.setShadowPen(kargs['shadowPen']) if 'fillLevel' in kargs: self.setFillLevel(kargs['fillLevel']) if 'brush' in kargs: self.setBrush(kargs['brush']) if 'antialias' in kargs: self.opts['antialias'] = kargs['antialias'] prof.mark('set') self.update() prof.mark('update') self.sigPlotChanged.emit(self) prof.mark('emit') prof.finish() def generatePath(self, x, y): if self.opts['stepMode']: ## each value in the x/y arrays generates 2 points. x2 = np.empty((len(x),2), dtype=x.dtype) x2[:] = x[:,np.newaxis] if self.opts['fillLevel'] is None: x = x2.reshape(x2.size)[1:-1] y2 = np.empty((len(y),2), dtype=y.dtype) y2[:] = y[:,np.newaxis] y = y2.reshape(y2.size) else: ## If we have a fill level, add two extra points at either end x = x2.reshape(x2.size) y2 = np.empty((len(y)+2,2), dtype=y.dtype) y2[1:-1] = y[:,np.newaxis] y = y2.reshape(y2.size)[1:-1] y[0] = self.opts['fillLevel'] y[-1] = self.opts['fillLevel'] path = fn.arrayToQPath(x, y, connect='all') return path def shape(self): if self.path is None: try: self.path = self.generatePath(*self.getData()) except: return QtGui.QPainterPath() return self.path def paint(self, p, opt, widget): prof = debug.Profiler('PlotCurveItem.paint '+str(id(self)), disabled=True) if self.xData is None: return #if self.opts['spectrumMode']: #if self.specPath is None: #self.specPath = self.generatePath(*self.getData()) #path = self.specPath #else: x = None y = None if self.path is None: x,y = self.getData() if x is None or len(x) == 0 or y is None or len(y) == 0: return self.path = self.generatePath(x,y) self.fillPath = None path = self.path prof.mark('generate path') if self._exportOpts is not False: aa = self._exportOpts.get('antialias', True) else: aa = self.opts['antialias'] p.setRenderHint(p.Antialiasing, aa) if self.opts['brush'] is not None and self.opts['fillLevel'] is not None: if self.fillPath is None: if x is None: x,y = self.getData() p2 = QtGui.QPainterPath(self.path) p2.lineTo(x[-1], self.opts['fillLevel']) p2.lineTo(x[0], self.opts['fillLevel']) p2.lineTo(x[0], y[0]) p2.closeSubpath() self.fillPath = p2 prof.mark('generate fill path') p.fillPath(self.fillPath, self.opts['brush']) prof.mark('draw fill path') sp = fn.mkPen(self.opts['shadowPen']) cp = fn.mkPen(self.opts['pen']) ## Copy pens and apply alpha adjustment #sp = QtGui.QPen(self.opts['shadowPen']) #cp = QtGui.QPen(self.opts['pen']) #for pen in [sp, cp]: #if pen is None: #continue #c = pen.color() #c.setAlpha(c.alpha() * self.opts['alphaHint']) #pen.setColor(c) ##pen.setCosmetic(True) if sp is not None and sp.style() != QtCore.Qt.NoPen: p.setPen(sp) p.drawPath(path) p.setPen(cp) p.drawPath(path) prof.mark('drawPath') #print "Render hints:", int(p.renderHints()) prof.finish() #p.setPen(QtGui.QPen(QtGui.QColor(255,0,0))) #p.drawRect(self.boundingRect()) def clear(self): self.xData = None ## raw values self.yData = None self.xDisp = None ## display values (after log / fft) self.yDisp = None self.path = None #del self.xData, self.yData, self.xDisp, self.yDisp, self.path def mouseClickEvent(self, ev): if not self.clickable or ev.button() != QtCore.Qt.LeftButton: return ev.accept() self.sigClicked.emit(self) class ROIPlotItem(PlotCurveItem): """Plot curve that monitors an ROI and image for changes to automatically replot.""" def __init__(self, roi, data, img, axes=(0,1), xVals=None, color=None): self.roi = roi self.roiData = data self.roiImg = img self.axes = axes self.xVals = xVals PlotCurveItem.__init__(self, self.getRoiData(), x=self.xVals, color=color) #roi.connect(roi, QtCore.SIGNAL('regionChanged'), self.roiChangedEvent) roi.sigRegionChanged.connect(self.roiChangedEvent) #self.roiChangedEvent() def getRoiData(self): d = self.roi.getArrayRegion(self.roiData, self.roiImg, axes=self.axes) if d is None: return while d.ndim > 1: d = d.mean(axis=1) return d def roiChangedEvent(self): d = self.getRoiData() self.updateData(d, self.xVals)