def __init__(self, data, parentWindow):
super(GraphicsScene, self).__init__(parentWindow)
self.data = data
# Create basic objects in the scene
self.timeAxis = TimeAxis()
self.addItem(self.timeAxis)
self.valueAxis = ValueAxis()
self.addItem(self.valueAxis)
self.valueGraph = ValueGraph(data)
self.addItem(self.valueGraph)
self.fit = Fit(data)
self.addItem(self.fit)
self.residualSeparatorAxis = QtGui.QGraphicsLineItem()
self.addItem(self.residualSeparatorAxis)
self.residualsGraph = ResidualsGraph(data)
self.addItem(self.residualsGraph)
self.informationTable = InformationTable(data,
parentWindow.menuBar(),
parentWindow.textItems,
self.valueGraph)
self.addItem(self.informationTable)
self.fullLightBars = FullLightBarPair(self.timeAxis, self)
self.fullLightBars.setBarPos(100, 400)
self.fullLightBars.setColor(QtGui.QColor("#333366"))
self.fitBars = FitBarPair(self.timeAxis, self)
self.fitBars.setBarPos(500, 1500)
self.fitBars.setColor(QtGui.QColor("#336633"))
self.timeAxis.setTime(0, 1.0)
# Draw the time axis to get proper children bounding rect.
self.timeAxis.update()
self.valueAxis.setData(0, 1.0, variables.absorbanceAxisCaption)
# Draw the absorbance axis to get proper children bounding rect,
# even when the initial heights are wrong.
self.valueAxis.update()
self.recalculateBorders()
# Set initial scene properties
self.__setSceneSize(self.DEFAULT_WIDTH)
# Redraw the axes with proper values set by __setSceneSize
self.timeAxis.update()
self.valueAxis.update()
class GraphicsScene(QtGui.QGraphicsScene):
"""
The scene containing graph. It's 1000 points high and 1000 or more
points wide. The width and height does not include borders.
"""
DEFAULT_WIDTH = 2000
MIN_WIDTH = 800
MAX_WIDTH = 20000
HEIGHT = 1000
def __init__(self, data, parentWindow):
super(GraphicsScene, self).__init__(parentWindow)
self.data = data
# Create basic objects in the scene
self.timeAxis = TimeAxis()
self.addItem(self.timeAxis)
self.valueAxis = ValueAxis()
self.addItem(self.valueAxis)
self.valueGraph = ValueGraph(data)
self.addItem(self.valueGraph)
self.fit = Fit(data)
self.addItem(self.fit)
self.residualSeparatorAxis = QtGui.QGraphicsLineItem()
self.addItem(self.residualSeparatorAxis)
self.residualsGraph = ResidualsGraph(data)
self.addItem(self.residualsGraph)
self.informationTable = InformationTable(data,
parentWindow.menuBar(),
parentWindow.textItems,
self.valueGraph)
self.addItem(self.informationTable)
self.fullLightBars = FullLightBarPair(self.timeAxis, self)
self.fullLightBars.setBarPos(100, 400)
self.fullLightBars.setColor(QtGui.QColor("#333366"))
self.fitBars = FitBarPair(self.timeAxis, self)
self.fitBars.setBarPos(500, 1500)
self.fitBars.setColor(QtGui.QColor("#336633"))
self.timeAxis.setTime(0, 1.0)
# Draw the time axis to get proper children bounding rect.
self.timeAxis.update()
self.valueAxis.setData(0, 1.0, variables.absorbanceAxisCaption)
# Draw the absorbance axis to get proper children bounding rect,
# even when the initial heights are wrong.
self.valueAxis.update()
self.recalculateBorders()
# Set initial scene properties
self.__setSceneSize(self.DEFAULT_WIDTH)
# Redraw the axes with proper values set by __setSceneSize
self.timeAxis.update()
self.valueAxis.update()
def updateFromData(self, autoSetWidth=False):
"""
Updates all parts of the scene. If autoSetWidth is set to
True, this method calculates the best width for the data and
set it. Otherwise the old (previous) width is preserved.
"""
if autoSetWidth:
newWidth = min(max(self.MIN_WIDTH, len(self.data.time)), self.MAX_WIDTH)
self.__setSceneSize(newWidth)
self.timeAxis.setTime(self.data.minTime, self.data.maxTime)
self.timeAxis.update()
self.valueAxis.setData(self.data.minValue,
self.data.maxValue,
variables.absorbanceAxisCaption if self.data.originalData.type == self.data.originalData.ABSORBANCE else variables.luminiscenceAxisCaption)
self.valueAxis.update()
self.updateValueGraph()
self.updateFit()
self.updateResidualsGraph()
self.updateFullLightBars()
self.updateFitBars()
self.informationTable.recreateFromData()
self.informationTable.findPlaceInScene()
def recalculateBorders(self):
# Border on the right side of the scene, with blank space, in pixels.
self.borderRight = 10
# Border between the left side of the scene and the start of the time axis, in pixels.
# Absorbance axis label and tics must fit here.
self.borderLeft = self.valueAxis.childrenBoundingRect().width() + 8
# Border on the top of the scene, in pixels.
self.borderTop = 10
# Border between the time axis line and the bottom of the
# scene, in pixels. Time axis label and tics must fit here.
self.borderBottom = self.timeAxis.childrenBoundingRect().height()
def updateAppearance(self):
# Update to get the new width.
self.valueAxis.update()
# Update to get the new height.
self.timeAxis.update()
# Get the new borders based on axes width height.
self.recalculateBorders()
self.informationTable.updateAppearance()
# Adjust the scene with the new borders. Sets a new height to
# the bars.
self.__setSceneSize(self.sceneWidth)
self.fullLightBars.updateAppearance()
self.fitBars.updateAppearance()
def updateValueGraph(self):
self.valueGraph.recreateFromData()
def updateFit(self):
self.fit.recreateFromData()
def updateResidualsGraph(self):
self.residualsGraph.recreateFromData()
def updateFullLightBars(self):
# Do nothing when no data are loaded.
if len(self.data.time) == 0:
return
self.fullLightBars.updatePositionFromData(self.data.fullLightVoltageTime1(),
self.data.fullLightVoltageTime2())
def updateFitBars(self):
# Do nothing when no data are loaded.
if len(self.data.time) == 0:
return
self.fitBars.updatePositionFromData(self.data.fitTime1(),
self.data.fitTime2())
def changeWidth(self, width):
# Only change the scene width if it really changed.
if self.sceneWidth == width:
return
self.__setSceneSize(width)
self.timeAxis.update()
self.valueAxis.update()
self.valueGraph.resizeFromData()
self.fit.resizeFromData()
self.residualsGraph.resizeFromData()
self.updateFullLightBars()
self.updateFitBars()
def __setSceneSize(self, width):
"""
Not to be called from outside.
"""
self.sceneWidth = width
residualsSize = int(self.HEIGHT * 0.15)
self.setSceneRect(QtCore.QRectF(0, 0,
width + self.borderLeft + self.borderRight,
self.HEIGHT + self.borderTop + self.borderBottom))
self.timeAxis.setPos(self.borderLeft, self.HEIGHT + self.borderTop)
self.timeAxis.setWidth(width)
self.valueAxis.setPos(self.borderLeft, self.borderTop)
self.valueAxis.setHeights(self.HEIGHT, self.HEIGHT - residualsSize)
self.valueGraph.setPos(self.borderLeft, self.borderTop)
self.valueGraph.setSize(width, self.HEIGHT - residualsSize)
self.fit.setPos(self.borderLeft, self.borderTop)
self.fit.setSize(width, self.HEIGHT - residualsSize)
self.residualSeparatorAxis.setPos(self.borderLeft, self.HEIGHT + self.borderTop - residualsSize)
self.residualSeparatorAxis.setLine(0, 0, width, 0)
self.residualsGraph.setPos(self.borderLeft, self.HEIGHT + self.borderTop - residualsSize)
self.residualsGraph.setSize(width, residualsSize)
self.fullLightBars.setPos(self.borderLeft, 0)
self.fullLightBars.setHeight(self.HEIGHT + self.borderTop + self.borderBottom)
self.fitBars.setPos(self.borderLeft, 0)
self.fitBars.setHeight(self.HEIGHT + self.borderTop + self.borderBottom)
def onDataChanged(self, change):
if change & Data.DATA_CHANGED_VALUES:
self.updateValueGraph()
self.informationTable.recreateFromData()
if change & Data.DATA_CHANGED_FULL_LIGHT_VOLTAGE_TIME_POINTER:
self.updateFullLightBars()
if change & Data.DATA_CHANGED_FIT:
# Delete absorbance and residuals, hide params from the information table.
self.updateFit()
self.updateResidualsGraph()
self.informationTable.recreateFromData()
if change & Data.DATA_CHANGED_FIT_TIME_POINTER:
self.updateFitBars()