Exemplo n.º 1
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 def transform(self, *args):
     """
     Transform a rectangle from scale to paint coordinates
     
     .. py:method:: transform(scalar)
     
         :param float scalar: Scalar
     
     .. py:method:: transform(xMap, yMap, rect)
     
         Transform a rectangle from scale to paint coordinates
     
         :param qwt.scale_map.QwtScaleMap xMap: X map
         :param qwt.scale_map.QwtScaleMap yMap: Y map
         :param QRectF rect: Rectangle in paint coordinates
     
     .. py:method:: transform(xMap, yMap, pos)
     
         Transform a point from scale to paint coordinates
     
         :param qwt.scale_map.QwtScaleMap xMap: X map
         :param qwt.scale_map.QwtScaleMap yMap: Y map
         :param QPointF pos: Position in scale coordinates
         
     Scalar: scalemap.transform(scalar)
     Point (QPointF): scalemap.transform(xMap, yMap, pos)
     Rectangle (QRectF): scalemap.transform(xMap, yMap, rect)
     
     .. seealso::
     
         :py:meth:`invTransform()`
     """
     if len(args) == 1:
         # Scalar transform
         return self.transform_scalar(args[0])
     elif len(args) == 3 and isinstance(args[2], QPointF):
         xMap, yMap, pos = args
         return QPointF(xMap.transform(pos.x()), yMap.transform(pos.y()))
     elif len(args) == 3 and isinstance(args[2], QRectF):
         xMap, yMap, rect = args
         x1 = xMap.transform(rect.left())
         x2 = xMap.transform(rect.right())
         y1 = yMap.transform(rect.top())
         y2 = yMap.transform(rect.bottom())
         if x2 < x1:
             x1, x2 = x2, x1
         if y2 < y1:
             y1, y2 = y2, y1
         if qwtFuzzyCompare(x1, 0., x2 - x1) == 0:
             x1 = 0.
         if qwtFuzzyCompare(x2, 0., x2 - x1) == 0:
             x2 = 0.
         if qwtFuzzyCompare(y1, 0., y2 - y1) == 0:
             y1 = 0.
         if qwtFuzzyCompare(y2, 0., y2 - y1) == 0:
             y2 = 0.
         return QRectF(x1, y1, x2 - x1 + 1, y2 - y1 + 1)
     else:
         raise TypeError("%s().transform() takes 1 or 3 argument(s) (%s "\
                         "given)" % (self.__class__.__name__, len(args)))
Exemplo n.º 2
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 def transform(self, *args):
     """Transform from scale to paint coordinates
     
     Scalar: scalemap.transform(scalar)
     Point (QPointF): scalemap.transform(xMap, yMap, pos)
     Rectangle (QRectF): scalemap.transform(xMap, yMap, rect)
     """
     if len(args) == 1:
         # Scalar transform
         return self.transform_scalar(args[0])
     elif len(args) == 3 and isinstance(args[2], QPointF):
         xMap, yMap, pos = args
         return QPointF(xMap.transform(pos.x()), yMap.transform(pos.y()))
     elif len(args) == 3 and isinstance(args[2], QRectF):
         xMap, yMap, rect = args
         x1 = xMap.transform(rect.left())
         x2 = xMap.transform(rect.right())
         y1 = yMap.transform(rect.top())
         y2 = yMap.transform(rect.bottom())
         if x2 < x1:
             x1, x2 = x2, x1
         if y2 < y1:
             y1, y2 = y2, y1
         if qwtFuzzyCompare(x1, 0., x2 - x1) == 0:
             x1 = 0.
         if qwtFuzzyCompare(x2, 0., x2 - x1) == 0:
             x2 = 0.
         if qwtFuzzyCompare(y1, 0., y2 - y1) == 0:
             y1 = 0.
         if qwtFuzzyCompare(y2, 0., y2 - y1) == 0:
             y2 = 0.
         return QRectF(x1, y1, x2 - x1 + 1, y2 - y1 + 1)
     else:
         raise TypeError("%s().transform() takes 1 or 3 argument(s) (%s "\
                         "given)" % (self.__class__.__name__, len(args)))
Exemplo n.º 3
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 def contains(self, interval, value):
     if not interval.isValid():
         return False
     elif qwtFuzzyCompare(value, interval.minValue(), interval.width()) < 0:
         return False
     elif qwtFuzzyCompare(value, interval.maxValue(), interval.width()) > 0:
         return False
     else:
         return True
Exemplo n.º 4
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 def contains(self, interval, value):
     if not interval.isValid():
         return False
     elif qwtFuzzyCompare(value, interval.minValue(), interval.width()) < 0:
         return False
     elif qwtFuzzyCompare(value, interval.maxValue(), interval.width()) > 0:
         return False
     else:
         return True
Exemplo n.º 5
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    def align(self, interval, stepSize):
        intv = qwtLogInterval(self.base(), interval)

        x1 = floorEps(intv.minValue(), stepSize)
        if qwtFuzzyCompare(interval.minValue(), x1, stepSize) == 0:
            x1 = interval.minValue()

        x2 = ceilEps(intv.maxValue(), stepSize)
        if qwtFuzzyCompare(interval.maxValue(), x2, stepSize) == 0:
            x2 = interval.maxValue()

        return qwtPowInterval(self.base(), QwtInterval(x1, x2))
Exemplo n.º 6
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 def align(self, interval, stepSize):
     x1 = interval.minValue()
     x2 = interval.maxValue()
     if -DBL_MAX + stepSize <= x1:
         x = floorEps(x1, stepSize)
         if qwtFuzzyCompare(x1, x, stepSize) != 0:
             x1 = x
     if DBL_MAX - stepSize >= x2:
         x = ceilEps(x2, stepSize)
         if qwtFuzzyCompare(x2, x, stepSize) != 0:
             x2 = x
     return QwtInterval(x1, x2)
Exemplo n.º 7
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 def align(self, interval, stepSize):
     x1 = interval.minValue()
     x2 = interval.maxValue()
     if -DBL_MAX+stepSize <= x1:
         x = floorEps(x1, stepSize)
         if qwtFuzzyCompare(x1, x, stepSize) != 0:
             x1 = x
     if DBL_MAX-stepSize >= x2:
         x = ceilEps(x2, stepSize)
         if qwtFuzzyCompare(x2, x, stepSize) != 0:
             x2 = x
     return QwtInterval(x1, x2)
Exemplo n.º 8
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 def align(self, interval, stepSize):
     intv = qwtLogInterval(self.base(), interval)
     
     x1 = floorEps(intv.minValue(), stepSize)
     if qwtFuzzyCompare(interval.minValue(), x1, stepSize) == 0:
         x1 = interval.minValue()
     
     x2 = ceilEps(intv.maxValue(), stepSize)
     if qwtFuzzyCompare(interval.maxValue(), x2, stepSize) == 0:
         x2 = interval.maxValue()
     
     return qwtPowInterval(self.base(), QwtInterval(x1, x2))
     
     
Exemplo n.º 9
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 def contains(self, interval, value):
     """
     Check if an interval "contains" a value
     
     :param float intervalSize: Interval size
     :param float value: Value
     :return: True, when the value is inside the interval
     """
     if not interval.isValid():
         return False
     elif qwtFuzzyCompare(value, interval.minValue(), interval.width()) < 0:
         return False
     elif qwtFuzzyCompare(value, interval.maxValue(), interval.width()) > 0:
         return False
     else:
         return True
Exemplo n.º 10
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 def contains(self, interval, value):
     """
     Check if an interval "contains" a value
     
     :param float intervalSize: Interval size
     :param float value: Value
     :return: True, when the value is inside the interval
     """
     if not interval.isValid():
         return False
     elif qwtFuzzyCompare(value, interval.minValue(), interval.width()) < 0:
         return False
     elif qwtFuzzyCompare(value, interval.maxValue(), interval.width()) > 0:
         return False
     else:
         return True
Exemplo n.º 11
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 def buildMinorTicks(self, ticks, maxMinorSteps, stepSize):
     """
     Calculate minor ticks for an interval
     
     :param list ticks: Major ticks (returned)
     :param int maxMinorSteps: Maximum number of minor steps
     :param float stepSize: Step size
     """
     minStep = qwtStepSize(stepSize, maxMinorSteps, self.base())
     if minStep == 0.:
         return
     numTicks = int(np.ceil(abs(stepSize/minStep))-1)
     medIndex = -1
     if numTicks % 2:
         medIndex = numTicks/2
     for val in ticks[QwtScaleDiv.MajorTick]:
         for k in range(numTicks):
             val += minStep
             alignedValue = val
             if qwtFuzzyCompare(val, 0., stepSize) == 0:
                 alignedValue = 0.
             if k == medIndex:
                 ticks[QwtScaleDiv.MediumTick] += [alignedValue]
             else:
                 ticks[QwtScaleDiv.MinorTick] += [alignedValue]
Exemplo n.º 12
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 def buildMinorTicks(self, ticks, maxMinorSteps, stepSize):
     """
     Calculate minor ticks for an interval
     
     :param list ticks: Major ticks (returned)
     :param int maxMinorSteps: Maximum number of minor steps
     :param float stepSize: Step size
     """
     minStep = qwtStepSize(stepSize, maxMinorSteps, self.base())
     if minStep == 0.:
         return
     numTicks = int(np.ceil(abs(stepSize/minStep))-1)
     medIndex = -1
     if numTicks % 2:
         medIndex = numTicks/2
     for val in ticks[QwtScaleDiv.MajorTick]:
         for k in range(numTicks):
             val += minStep
             alignedValue = val
             if qwtFuzzyCompare(val, 0., stepSize) == 0:
                 alignedValue = 0.
             if k == medIndex:
                 ticks[QwtScaleDiv.MediumTick] += [alignedValue]
             else:
                 ticks[QwtScaleDiv.MinorTick] += [alignedValue]
Exemplo n.º 13
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    def buildMinorTicks(self, ticks, maxMinorSteps, stepSize):
        logBase = self.base()

        if stepSize < 1.1:
            minStep = self.divideInterval(stepSize, maxMinorSteps + 1)
            if minStep == 0.:
                return

            numSteps = int(round(stepSize / minStep))

            mediumTickIndex = -1
            if numSteps > 2 and numSteps % 2 == 0:
                mediumTickIndex = numSteps / 2

            for v in ticks[QwtScaleDiv.MajorTick]:
                s = logBase / numSteps
                if s >= 1.:
                    if not qFuzzyCompare(s, 1.):
                        ticks[QwtScaleDiv.MinorTick] += [v * s]
                    for j in range(2, numSteps):
                        ticks[QwtScaleDiv.MinorTick] += [v * j * s]
                else:
                    for j in range(1, numSteps):
                        tick = v + j * v * (logBase - 1) / numSteps
                        if j == mediumTickIndex:
                            ticks[QwtScaleDiv.MediumTick] += [tick]
                        else:
                            ticks[QwtScaleDiv.MinorTick] += [tick]

        else:
            minStep = self.divideInterval(stepSize, maxMinorSteps)
            if minStep == 0.:
                return

            if minStep < 1.:
                minStep = 1.

            numTicks = int(round(stepSize / minStep)) - 1

            if qwtFuzzyCompare(
                (numTicks + 1) * minStep, stepSize, stepSize) > 0:
                numTicks = 0

            if numTicks < 1:
                return

            mediumTickIndex = -1
            if numTicks > 2 and numTicks % 2:
                mediumTickIndex = numTicks / 2

            minFactor = max([np.power(logBase, minStep), float(logBase)])

            for tick in ticks[QwtScaleDiv.MajorTick]:
                for j in range(numTicks):
                    tick *= minFactor
                    if j == mediumTickIndex:
                        ticks[QwtScaleDiv.MediumTick] += [tick]
                    else:
                        ticks[QwtScaleDiv.MinorTick] += [tick]
Exemplo n.º 14
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def qwtStepSize(intervalSize, maxSteps, base):
    minStep = divideInterval(intervalSize, maxSteps, base)
    if minStep != 0.:
        numTicks = np.ceil(abs(intervalSize / minStep)) - 1
        if qwtFuzzyCompare((numTicks + 1) * abs(minStep), abs(intervalSize),
                           intervalSize) > 0:
            return .5 * intervalSize
    return minStep
Exemplo n.º 15
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def qwtStepSize(intervalSize, maxSteps, base):
    minStep = divideInterval(intervalSize, maxSteps, base)
    if minStep != 0.:
        numTicks = np.ceil(abs(intervalSize/minStep))-1
        if qwtFuzzyCompare((numTicks+1)*abs(minStep),
                           abs(intervalSize), intervalSize) > 0:
            return .5*intervalSize
    return minStep
Exemplo n.º 16
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 def buildMinorTicks(self, ticks, maxMinorSteps, stepSize):
     logBase = self.base()
     
     if stepSize < 1.1:
         minStep = self.divideInterval(stepSize, maxMinorSteps+1)
         if minStep == 0.:
             return
         
         numSteps = int(round(stepSize/minStep))
         
         mediumTickIndex = -1
         if numSteps > 2 and numSteps % 2 == 0:
             mediumTickIndex = numSteps/2
         
         for v in ticks[QwtScaleDiv.MajorTick]:
             s = logBase/numSteps
             if s >= 1.:
                 if not qFuzzyCompare(s, 1.):
                     ticks[QwtScaleDiv.MinorTick] += [v*s]
                 for j in range(2, numSteps):
                     ticks[QwtScaleDiv.MinorTick] += [v*j*s]
             else:
                 for j in range(1, numSteps):
                     tick = v + j*v*(logBase-1)/numSteps
                     if j == mediumTickIndex:
                         ticks[QwtScaleDiv.MediumTick] += [tick]
                     else:
                         ticks[QwtScaleDiv.MinorTick] += [tick]
                         
     else:
         minStep = self.divideInterval(stepSize, maxMinorSteps)
         if minStep == 0.:
             return
         
         if minStep < 1.:
             minStep = 1.
         
         numTicks = int(round(stepSize/minStep))-1
         
         if qwtFuzzyCompare((numTicks+1)*minStep, stepSize, stepSize) > 0:
             numTicks = 0
         
         if numTicks < 1:
             return
         
         mediumTickIndex = -1
         if numTicks > 2 and numTicks % 2:
             mediumTickIndex = numTicks/2
         
         minFactor = max([np.power(logBase, minStep), float(logBase)])
         
         for tick in ticks[QwtScaleDiv.MajorTick]:
             for j in range(numTicks):
                 tick *= minFactor
                 if j == mediumTickIndex:
                     ticks[QwtScaleDiv.MediumTick] += [tick]
                 else:
                     ticks[QwtScaleDiv.MinorTick] += [tick]
Exemplo n.º 17
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def qwtStepSize(intervalSize, maxSteps, base):
    """this version often doesn't find the best ticks: f.e for 15: 5, 10"""
    minStep = divideInterval(intervalSize, maxSteps, base)
    if minStep != 0.0:
        #  # ticks per interval
        numTicks = np.ceil(abs(intervalSize / minStep)) - 1
        #  Do the minor steps fit into the interval?
        if qwtFuzzyCompare((numTicks + 1) * abs(minStep), abs(intervalSize), intervalSize) > 0:
            #  The minor steps doesn't fit into the interval
            return 0.5 * intervalSize
    return minStep
Exemplo n.º 18
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def qwtStepSize(intervalSize, maxSteps, base):
    """this version often doesn't find the best ticks: f.e for 15: 5, 10"""
    minStep = divideInterval(intervalSize, maxSteps, base)
    if minStep != 0.:
        #  # ticks per interval
        numTicks = np.ceil(abs(intervalSize/minStep))-1
        #  Do the minor steps fit into the interval?
        if qwtFuzzyCompare((numTicks+1)*abs(minStep),
                           abs(intervalSize), intervalSize) > 0:
            #  The minor steps doesn't fit into the interval
            return .5*intervalSize
    return minStep
Exemplo n.º 19
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    def align(self, interval, stepSize):
        """
        Align an interval to a step size

        The limits of an interval are aligned that both are integer
        multiples of the step size.
        
        :param qwt.interval.QwtInterval interval: Interval
        :param float stepSize: Step size
        :return: Aligned interval
        """
        intv = qwtLogInterval(self.base(), interval)

        x1 = floorEps(intv.minValue(), stepSize)
        if qwtFuzzyCompare(interval.minValue(), x1, stepSize) == 0:
            x1 = interval.minValue()

        x2 = ceilEps(intv.maxValue(), stepSize)
        if qwtFuzzyCompare(interval.maxValue(), x2, stepSize) == 0:
            x2 = interval.maxValue()

        return qwtPowInterval(self.base(), QwtInterval(x1, x2))
Exemplo n.º 20
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 def buildTicks(self, interval, stepSize, maxMinorSteps):
     ticks = [[] for _i in range(QwtScaleDiv.NTickTypes)]
     boundingInterval = self.align(interval, stepSize)
     ticks[QwtScaleDiv.MajorTick] = self.buildMajorTicks(boundingInterval,
                                                         stepSize)
     if maxMinorSteps > 0:
         self.buildMinorTicks(ticks, maxMinorSteps, stepSize)
     for i in range(QwtScaleDiv.NTickTypes):
         ticks[i] = self.strip(ticks[i], interval)
         for j in range(len(ticks[i])):
             if qwtFuzzyCompare(ticks[i][j], 0., stepSize) == 0:
                 ticks[i][j] = 0.
     return ticks
Exemplo n.º 21
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 def buildTicks(self, interval, stepSize, maxMinorSteps):
     ticks = [[] for _i in range(QwtScaleDiv.NTickTypes)]
     boundingInterval = self.align(interval, stepSize)
     ticks[QwtScaleDiv.MajorTick] = self.buildMajorTicks(
         boundingInterval, stepSize)
     if maxMinorSteps > 0:
         self.buildMinorTicks(ticks, maxMinorSteps, stepSize)
     for i in range(QwtScaleDiv.NTickTypes):
         ticks[i] = self.strip(ticks[i], interval)
         for j in range(len(ticks[i])):
             if qwtFuzzyCompare(ticks[i][j], 0., stepSize) == 0:
                 ticks[i][j] = 0.
     return ticks
Exemplo n.º 22
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    def align(self, interval, stepSize):
        """
        Align an interval to a step size

        The limits of an interval are aligned that both are integer
        multiples of the step size.
        
        :param qwt.interval.QwtInterval interval: Interval
        :param float stepSize: Step size
        :return: Aligned interval
        """
        x1 = interval.minValue()
        x2 = interval.maxValue()
        if -DBL_MAX+stepSize <= x1:
            x = floorEps(x1, stepSize)
            if qwtFuzzyCompare(x1, x, stepSize) != 0:
                x1 = x
        if DBL_MAX-stepSize >= x2:
            x = ceilEps(x2, stepSize)
            if qwtFuzzyCompare(x2, x, stepSize) != 0:
                x2 = x
        return QwtInterval(x1, x2)
Exemplo n.º 23
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    def align(self, interval, stepSize):
        """
        Align an interval to a step size

        The limits of an interval are aligned that both are integer
        multiples of the step size.
        
        :param qwt.interval.QwtInterval interval: Interval
        :param float stepSize: Step size
        :return: Aligned interval
        """
        intv = qwtLogInterval(self.base(), interval)
        
        x1 = floorEps(intv.minValue(), stepSize)
        if qwtFuzzyCompare(interval.minValue(), x1, stepSize) == 0:
            x1 = interval.minValue()
        
        x2 = ceilEps(intv.maxValue(), stepSize)
        if qwtFuzzyCompare(interval.maxValue(), x2, stepSize) == 0:
            x2 = interval.maxValue()
        
        return qwtPowInterval(self.base(), QwtInterval(x1, x2))
Exemplo n.º 24
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    def align(self, interval, stepSize):
        """
        Align an interval to a step size

        The limits of an interval are aligned that both are integer
        multiples of the step size.
        
        :param qwt.interval.QwtInterval interval: Interval
        :param float stepSize: Step size
        :return: Aligned interval
        """
        x1 = interval.minValue()
        x2 = interval.maxValue()
        if -DBL_MAX+stepSize <= x1:
            x = floorEps(x1, stepSize)
            if qwtFuzzyCompare(x1, x, stepSize) != 0:
                x1 = x
        if DBL_MAX-stepSize >= x2:
            x = ceilEps(x2, stepSize)
            if qwtFuzzyCompare(x2, x, stepSize) != 0:
                x2 = x
        return QwtInterval(x1, x2)
Exemplo n.º 25
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 def transform(self, *args):
     """Transform from scale to paint coordinates
     
     Scalar: scalemap.transform(scalar)
     Point (QPointF): scalemap.transform(xMap, yMap, pos)
     Rectangle (QRectF): scalemap.transform(xMap, yMap, rect)
     """
     if len(args) == 1:
         # Scalar transform
         return self.transform_scalar(args[0])
     elif len(args) == 3 and isinstance(args[2], QPointF):
         xMap, yMap, pos = args
         return QPointF(xMap.transform(pos.x()),
                        yMap.transform(pos.y()))
     elif len(args) == 3 and isinstance(args[2], QRectF):
         xMap, yMap, rect = args
         x1 = xMap.transform(rect.left())
         x2 = xMap.transform(rect.right())
         y1 = yMap.transform(rect.top())
         y2 = yMap.transform(rect.bottom())
         if x2 < x1:
             x1, x2 = x2, x1
         if y2 < y1:
             y1, y2 = y2, y1
         if qwtFuzzyCompare(x1, 0., x2-x1) == 0:
             x1 = 0.
         if qwtFuzzyCompare(x2, 0., x2-x1) == 0:
             x2 = 0.
         if qwtFuzzyCompare(y1, 0., y2-y1) == 0:
             y1 = 0.
         if qwtFuzzyCompare(y2, 0., y2-y1) == 0:
             y2 = 0.
         return QRectF(x1, y1, x2-x1+1, y2-y1+1)
     else:
         raise TypeError("%s().transform() takes 1 or 3 argument(s) (%s "\
                         "given)" % (self.__class__.__name__, len(args)))
Exemplo n.º 26
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 def buildMinorTicks(self, ticks, maxMinorSteps, stepSize):
     minStep = qwtStepSize(stepSize, maxMinorSteps, self.base())
     if minStep == 0.:
         return
     numTicks = int(np.ceil(abs(stepSize/minStep))-1)
     medIndex = -1
     if numTicks % 2:
         medIndex = numTicks/2
     for val in ticks[QwtScaleDiv.MajorTick]:
         for k in range(numTicks):
             val += minStep
             alignedValue = val
             if qwtFuzzyCompare(val, 0., stepSize) == 0:
                 alignedValue = 0.
             if k == medIndex:
                 ticks[QwtScaleDiv.MediumTick] += [alignedValue]
             else:
                 ticks[QwtScaleDiv.MinorTick] += [alignedValue]
Exemplo n.º 27
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 def buildMinorTicks(self, ticks, maxMinorSteps, stepSize):
     minStep = qwtStepSize(stepSize, maxMinorSteps, self.base())
     if minStep == 0.:
         return
     numTicks = int(np.ceil(abs(stepSize / minStep)) - 1)
     medIndex = -1
     if numTicks % 2:
         medIndex = numTicks / 2
     for val in ticks[QwtScaleDiv.MajorTick]:
         for k in range(numTicks):
             val += minStep
             alignedValue = val
             if qwtFuzzyCompare(val, 0., stepSize) == 0:
                 alignedValue = 0.
             if k == medIndex:
                 ticks[QwtScaleDiv.MediumTick] += [alignedValue]
             else:
                 ticks[QwtScaleDiv.MinorTick] += [alignedValue]
Exemplo n.º 28
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 def buildTicks(self, interval, stepSize, maxMinorSteps):
     """
     Calculate ticks for an interval
     
     :param qwt.interval.QwtInterval interval: Interval
     :param float stepSize: Step size
     :param int maxMinorSteps: Maximum number of minor steps
     :return: Calculated ticks
     """
     ticks = [[] for _i in range(QwtScaleDiv.NTickTypes)]
     boundingInterval = self.align(interval, stepSize)
     ticks[QwtScaleDiv.MajorTick] = self.buildMajorTicks(boundingInterval, stepSize)
     if maxMinorSteps > 0:
         self.buildMinorTicks(ticks, maxMinorSteps, stepSize)
     for i in range(QwtScaleDiv.NTickTypes):
         ticks[i] = self.strip(ticks[i], interval)
         for j in range(len(ticks[i])):
             if qwtFuzzyCompare(ticks[i][j], 0.0, stepSize) == 0:
                 ticks[i][j] = 0.0
     return ticks
Exemplo n.º 29
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 def buildTicks(self, interval, stepSize, maxMinorSteps):
     """
     Calculate ticks for an interval
     
     :param qwt.interval.QwtInterval interval: Interval
     :param float stepSize: Step size
     :param int maxMinorSteps: Maximum number of minor steps
     :return: Calculated ticks
     """
     ticks = [[] for _i in range(QwtScaleDiv.NTickTypes)]
     boundingInterval = self.align(interval, stepSize)
     ticks[QwtScaleDiv.MajorTick] = self.buildMajorTicks(boundingInterval,
                                                         stepSize)
     if maxMinorSteps > 0:
         self.buildMinorTicks(ticks, maxMinorSteps, stepSize)
     for i in range(QwtScaleDiv.NTickTypes):
         ticks[i] = self.strip(ticks[i], interval)
         for j in range(len(ticks[i])):
             if qwtFuzzyCompare(ticks[i][j], 0., stepSize) == 0:
                 ticks[i][j] = 0.
     return ticks
Exemplo n.º 30
0
 def transform(self, *args):
     """
     Transform a rectangle from scale to paint coordinates
     
     .. py:method:: transform(scalar)
     
         :param float scalar: Scalar
     
     .. py:method:: transform(xMap, yMap, rect)
     
         Transform a rectangle from scale to paint coordinates
     
         :param qwt.scale_map.QwtScaleMap xMap: X map
         :param qwt.scale_map.QwtScaleMap yMap: Y map
         :param QRectF rect: Rectangle in paint coordinates
     
     .. py:method:: transform(xMap, yMap, pos)
     
         Transform a point from scale to paint coordinates
     
         :param qwt.scale_map.QwtScaleMap xMap: X map
         :param qwt.scale_map.QwtScaleMap yMap: Y map
         :param QPointF pos: Position in scale coordinates
         
     Scalar: scalemap.transform(scalar)
     Point (QPointF): scalemap.transform(xMap, yMap, pos)
     Rectangle (QRectF): scalemap.transform(xMap, yMap, rect)
     
     .. seealso::
     
         :py:meth:`invTransform()`
     """
     if len(args) == 1:
         # Scalar transform
         return self.transform_scalar(args[0])
     elif len(args) == 3 and isinstance(args[2], QPointF):
         xMap, yMap, pos = args
         return QPointF(xMap.transform(pos.x()),
                        yMap.transform(pos.y()))
     elif len(args) == 3 and isinstance(args[2], QRectF):
         xMap, yMap, rect = args
         x1 = xMap.transform(rect.left())
         x2 = xMap.transform(rect.right())
         y1 = yMap.transform(rect.top())
         y2 = yMap.transform(rect.bottom())
         if x2 < x1:
             x1, x2 = x2, x1
         if y2 < y1:
             y1, y2 = y2, y1
         if qwtFuzzyCompare(x1, 0., x2-x1) == 0:
             x1 = 0.
         if qwtFuzzyCompare(x2, 0., x2-x1) == 0:
             x2 = 0.
         if qwtFuzzyCompare(y1, 0., y2-y1) == 0:
             y1 = 0.
         if qwtFuzzyCompare(y2, 0., y2-y1) == 0:
             y2 = 0.
         return QRectF(x1, y1, x2-x1+1, y2-y1+1)
     else:
         raise TypeError("%s().transform() takes 1 or 3 argument(s) (%s "\
                         "given)" % (self.__class__.__name__, len(args)))