def autoScale(self, maxSteps, x1, x2): #, stepSize):
print "plouf autoScale"
if (x1 > x2):
y = x2.copy()
x2 = x1
x1 = y
interval = QwtDoubleInterval(x1 / pow(10.0, lowerMargin()),
x2 * pow(10.0, upperMargin()))
logRef = 1.0
if reference() > LOG_MIN / 2:
logRef = min(reference(), LOG_MAX / 2)
if testAttribute(QwtScaleEngine.Symmetric):
delta = max(interval.maxValue() / logRef,
logRef / interval.minValue())
interval.setInterval(logRef / delta, logRef * delta)
if testAttribute(QwtScaleEngine.IncludeReference):
interval = interval.extend(logRef)
interval = interval.limited(LOG_MIN, LOG_MAX)
if interval.width() == 0.0:
interval = self.buildInterval(interval.minValue())
stepSize = self.divideInterval(
self.log10(interval).width(), max(maxNumSteps, 1))
stepSize = max(stepSize, 1.0)
if not testAttribute(QwtScaleEngine.Floating):
interval = self.align(interval, stepSize)
x1 = interval.minValue()
x2 = interval.maxValue()
if testAttribute(QwtScaleEngine.Inverted):
y = x2.copy()
x2 = x1
x1 = y
stepSize = -stepSize
return (x1, x2, stepSize)
def autoScale(self, maxSteps, x1, x2):#, stepSize):
print("plouf autoScale")
if ( x1 > x2 ):
y = x2.copy()
x2 = x1
x1 = y
interval = QwtDoubleInterval(x1 / pow(10.0, lowerMargin()), x2 * pow(10.0, upperMargin()) )
logRef = 1.0
if reference() > LOG_MIN / 2:
logRef = min(reference(), LOG_MAX/2)
if testAttribute(QwtScaleEngine.Symmetric):
delta = max(interval.maxValue() / logRef, logRef / interval.minValue())
interval.setInterval(logRef / delta, logRef * delta)
if testAttribute(QwtScaleEngine.IncludeReference):
interval = interval.extend(logRef)
interval = interval.limited(LOG_MIN, LOG_MAX)
if interval.width() == 0.0:
interval = self.buildInterval(interval.minValue())
stepSize = self.divideInterval(self.log10(interval).width(), max(maxNumSteps, 1))
stepSize = max(stepSize, 1.0)
if not testAttribute(QwtScaleEngine.Floating):
interval = self.align(interval, stepSize)
x1 = interval.minValue()
x2 = interval.maxValue()
if testAttribute(QwtScaleEngine.Inverted):
y = x2.copy()
x2 = x1
x1 = y
stepSize = -stepSize
return (x1, x2, stepSize)
def divideScale(self, x1, x2, maxMajSteps, maxMinSteps, stepSize=0.0):
print "plouf divideScale", x1, x2, maxMajSteps, maxMinSteps, stepSize
#return QwtScaleDiv(0.,1.,[1,2,3],[],[])
interval = QwtDoubleInterval(x1, x2).normalized().limited(
LOG_MIN, LOG_MAX)
if interval.width() <= 0:
return QwtScaleDiv()
if interval.maxValue() / interval.minValue() < 10.0:
# scale width is less than one decade -> build linear scale
linearScaler = QwtLinearScaleEngine()
linearScaler.setAttributes(self.attributes())
linearScaler.setReference(self.reference())
linearScaler.setMargins(self.lowerMargin(), self.upperMargin())
return linearScaler.divideScale(x1, x2, maxMajSteps, maxMinSteps,
stepSize)
stepSize = abs(stepSize)
if stepSize == 0.:
maxMajSteps = max(maxMajSteps, 1)
stepSize = self.divideInterval(
self.log10(interval).width(), maxMajSteps)
stepSize = max(stepSize, 1.) # major step must be >= 1 decade
scaleDiv = QwtScaleDiv()
if stepSize <> 0.:
ticks = self.buildTicks(interval, stepSize, maxMinSteps)
scaleDiv = QwtScaleDiv(interval, ticks[QwtScaleDiv.MajorTick],
ticks[QwtScaleDiv.MediumTick],
ticks[QwtScaleDiv.MinorTick])
if x1 > x2:
scaleDiv.invert()
print scaleDiv.ticks(QwtScaleDiv.MajorTick)
print scaleDiv.ticks(QwtScaleDiv.MediumTick)
print scaleDiv.ticks(QwtScaleDiv.MinorTick)
print "plouf finished divideScale"
return scaleDiv
def divideScale(self, x1, x2, maxMajSteps, maxMinSteps, stepSize = 0.0):
print("plouf divideScale", x1, x2, maxMajSteps, maxMinSteps, stepSize)
#return QwtScaleDiv(0.,1.,[1,2,3],[],[])
interval = QwtDoubleInterval(x1, x2).normalized().limited(LOG_MIN, LOG_MAX)
if interval.width() <= 0 :
return QwtScaleDiv()
if interval.maxValue() / interval.minValue() < 10.0:
# scale width is less than one decade -> build linear scale
linearScaler = QwtLinearScaleEngine()
linearScaler.setAttributes(self.attributes())
linearScaler.setReference(self.reference())
linearScaler.setMargins(self.lowerMargin(), self.upperMargin())
return linearScaler.divideScale(x1, x2, maxMajSteps, maxMinSteps, stepSize)
stepSize = abs(stepSize)
if stepSize == 0.:
maxMajSteps = max(maxMajSteps, 1)
stepSize = self.divideInterval(self.log10(interval).width(), maxMajSteps)
stepSize = max(stepSize, 1.) # major step must be >= 1 decade
scaleDiv = QwtScaleDiv()
if stepSize != 0.:
ticks = self.buildTicks(interval, stepSize, maxMinSteps)
scaleDiv = QwtScaleDiv(interval, ticks[QwtScaleDiv.MajorTick], ticks[QwtScaleDiv.MediumTick], ticks[QwtScaleDiv.MinorTick])
if x1 > x2:
scaleDiv.invert()
print(scaleDiv.ticks(QwtScaleDiv.MajorTick))
print(scaleDiv.ticks(QwtScaleDiv.MediumTick))
print(scaleDiv.ticks(QwtScaleDiv.MinorTick))
print("plouf finished divideScale")
return scaleDiv
