def __init__(self):
GChart.__init__(self, XChartSize=300, YChartSize=450)
self.setChartTitle("<h2>2<sup>x</sup> vs x</h2>")
self.addCurve()
self.getCurve().getSymbol().setHovertextTemplate(
formatAsHovertext("${y}=2^${x}"))
self.getCurve().setLegendLabel("<b>2<sup>x</sup></b>")
self.getCurve().getSymbol().setBackgroundColor("red")
self.getCurve().getSymbol().setBorderColor("black")
self.getCurve().getSymbol().setWidth(9)
self.getCurve().getSymbol().setHeight(9)
# add (log10-transformed) powers of 2 from 1/4 to 8
for i in range(-2, 4):
self.getCurve().addPoint(i,log10(math.pow(2,i)))
# GChart's "=10^" NumberFormat prefix inverts the log10
# transform
self.getYAxis().setTickLabelFormat("=10^#.##")
# add conventional log-scaled ticks from .1 to 10
self.getYAxis().addTick(log10(0.1))
x = 0.1
while x < 10:
for y in range(2, 11):
self.getYAxis().addTick(log10(x*y))
x *= 10
self.getXAxis().setAxisLabel("<b>x</b>")
self.getXAxis().setHasGridlines(True)
self.getXAxis().setTickCount(6)
self.getYAxis().setAxisLabel("<b>2<sup>x</sup></b>")
self.getYAxis().setHasGridlines(True)
def _bar_segment_hover_text(self, testrun_id, symbol, step_idx, dts):
"""
The hover text for the bar segment
@type testrun_id: C{str}
@param testrun_id: The testrun id
@type symbol: L{pyjamas.chart.Symbol}
@param symbol: The
@type step_idx: C{int}
@param step_idx: The index of the `step` in te testrun (for this bar)
@type dts: C{list} of C{int}
@param dts: The timedeltas for the whole testrun
"""
symbol.setHoverAnnotationSymbolType(
SymbolType.ANCHOR_MOUSE_SNAP_TO_Y)
symbol.setHoverLocation(AnnotationLocation.SOUTHEAST)
start_time = sum(dts[:step_idx])
end_time = sum(dts[:step_idx+1])
step = self._steps[step_idx]
ht = "<b>%s</b> <i>%s</i>: %ss-%ss" % (testrun_id, step,
start_time, end_time)
ht = formatAsHovertext(ht)
symbol.setHovertextTemplate(ht)
def __init__(self):
GChart.__init__(self, XChartSize=300, YChartSize=450)
self.setChartTitle("<h2>2<sup>x</sup> vs x</h2>")
self.addCurve()
self.getCurve().getSymbol().setHovertextTemplate(
formatAsHovertext("${y}=2^${x}"))
self.getCurve().setLegendLabel("<b>2<sup>x</sup></b>")
self.getCurve().getSymbol().setBackgroundColor("red")
self.getCurve().getSymbol().setBorderColor("black")
self.getCurve().getSymbol().setWidth(9)
self.getCurve().getSymbol().setHeight(9)
# add (log10-transformed) powers of 2 from 1/4 to 8
for i in range(-2, 4):
self.getCurve().addPoint(i, log10(math.pow(2, i)))
# GChart's "=10^" NumberFormat prefix inverts the log10
# transform
self.getYAxis().setTickLabelFormat("=10^#.##")
# add conventional log-scaled ticks from .1 to 10
self.getYAxis().addTick(log10(0.1))
x = 0.1
while x < 10:
for y in range(2, 11):
self.getYAxis().addTick(log10(x * y))
x *= 10
self.getXAxis().setAxisLabel("<b>x</b>")
self.getXAxis().setHasGridlines(True)
self.getXAxis().setTickCount(6)
self.getYAxis().setAxisLabel("<b>2<sup>x</sup></b>")
self.getYAxis().setHasGridlines(True)
def __init__(self):
GChart.__init__(self)
self.updateButton = Button(
"<b><big>Generate New Simulated Revenues</big></b>")
self.setChartSize(WIDTH, HEIGHT)
self.setChartTitle("<b><big><big>" + "Simulated Quarterly Revenues" +
"</big></big><br> </b>")
self.updateButton.addClickListener(self)
self.setChartFootnotes(self.updateButton)
for iCurve in range(len(barLabels)):
self.addCurve() # one curve per quarter
self.getCurve().getSymbol().setSymbolType(
SymbolType.VBAR_SOUTHWEST)
self.getCurve().getSymbol().setBackgroundColor(barColors[iCurve])
self.getCurve().setLegendLabel(barLabels[iCurve])
self.getCurve().getSymbol().setHovertextTemplate(
formatAsHovertext(barLabels[iCurve] + " revenue=${y}"))
self.getCurve().getSymbol().setModelWidth(1.0)
self.getCurve().getSymbol().setBorderColor("black")
self.getCurve().getSymbol().setBorderWidth(1)
for jGroup in range(len(groupLabels)):
# the '+1' creates a bar-sized gap between groups
y = rnd() * MAX_REVENUE
print "x, y", 1 + iCurve + jGroup * (len(barLabels) + 1), y
self.getCurve().addPoint(
1 + iCurve + jGroup * (len(barLabels) + 1), y)
self.getCurve().getPoint().setAnnotationText(barLabels[iCurve])
self.getCurve().getPoint().setAnnotationLocation(
AnnotationLocation.NORTH)
for i in range(len(groupLabels)):
# formula centers tick-label horizontally on each group
self.getXAxis().addTick(
len(barLabels) / 2. + i * (len(barLabels) + 1), groupLabels[i])
self.getXAxis().setTickLabelFontSize(20.0)
self.getXAxis().setTickLabelThickness(40.0)
self.getXAxis().setTickLength(6.0)
# small tick-like gap...
self.getXAxis().setTickThickness(0)
# but with invisible ticks
self.getXAxis().setAxisMin(0)
# keeps first bar on chart
self.getYAxis().setAxisMin(0)
# Based on sim revenue range
self.getYAxis().setAxisMax(MAX_REVENUE)
# of 0 to MAX_REVENUE.
self.getYAxis().setTickCount(11)
self.getYAxis().setHasGridlines(True)
self.getYAxis().setTickLabelFormat("$#,###")
def __init__(self):
GChart.__init__(self)
self.updateButton = Button("<b><big>Generate New Simulated Revenues</big></b>")
self.setChartSize(WIDTH, HEIGHT)
self.setChartTitle("<b><big><big>" +
"Simulated Quarterly Revenues" +
"</big></big><br> </b>")
self.updateButton.addClickListener(self)
self.setChartFootnotes(self.updateButton)
for iCurve in range(len(barLabels)):
self.addCurve() # one curve per quarter
self.getCurve().getSymbol().setSymbolType(SymbolType.VBAR_SOUTHWEST)
self.getCurve().getSymbol().setBackgroundColor(barColors[iCurve])
self.getCurve().setLegendLabel(barLabels[iCurve])
self.getCurve().getSymbol().setHovertextTemplate(
formatAsHovertext(barLabels[iCurve] + " revenue=${y}"))
self.getCurve().getSymbol().setModelWidth(1.0)
self.getCurve().getSymbol().setBorderColor("black")
self.getCurve().getSymbol().setBorderWidth(1)
for jGroup in range(len(groupLabels)):
# the '+1' creates a bar-sized gap between groups
y = rnd()*MAX_REVENUE
print "x, y", 1+iCurve+jGroup*(len(barLabels)+1), y
self.getCurve().addPoint(1+iCurve+jGroup*(len(barLabels)+1), y)
self.getCurve().getPoint().setAnnotationText(barLabels[iCurve])
self.getCurve().getPoint().setAnnotationLocation(
AnnotationLocation.NORTH)
for i in range(len(groupLabels)):
# formula centers tick-label horizontally on each group
self.getXAxis().addTick(
len(barLabels)/2. + i*(len(barLabels)+1),
groupLabels[i])
self.getXAxis().setTickLabelFontSize(20.0)
self.getXAxis().setTickLabelThickness(40.0)
self.getXAxis().setTickLength(6.0); # small tick-like gap...
self.getXAxis().setTickThickness(0); # but with invisible ticks
self.getXAxis().setAxisMin(0); # keeps first bar on chart
self.getYAxis().setAxisMin(0); # Based on sim revenue range
self.getYAxis().setAxisMax(MAX_REVENUE); # of 0 to MAX_REVENUE.
self.getYAxis().setTickCount(11)
self.getYAxis().setHasGridlines(True)
self.getYAxis().setTickLabelFormat("$#,###")
def __init__(self):
GChart.__init__(self)
self.setChartSize(200, 200)
self.setBorderWidth("0px")
self.setHoverParameterInterpreter(
CurveNumberHoverParameterInterpreter())
template = formatAsHovertext(
"Curve #${curveNumber}:<br>x=${x}, y=${y}")
for iCurve in range(3):
self.addCurve()
self.getCurve().getSymbol().setHovertextTemplate(template)
for iPoint in range(10):
self.getCurve().addPoint(iPoint, (iCurve+1)*iPoint)
def __init__(self):
GChart.__init__(self)
self.setChartSize(200, 200)
self.setBorderWidth("0px")
self.setHoverParameterInterpreter(
CurveNumberHoverParameterInterpreter())
template = formatAsHovertext(
"Curve #${curveNumber}:<br>x=${x}, y=${y}")
for iCurve in range(3):
self.addCurve()
self.getCurve().getSymbol().setHovertextTemplate(template)
for iPoint in range(10):
self.getCurve().addPoint(iPoint, (iCurve + 1) * iPoint)
def __init__(self):
GChart.__init__(self)
self.setChartTitle("<b><i>Market Share by Region</i></b>")
SIZE = 200
self.setChartSize(SIZE, SIZE)
region = ["USA", "Canada", "Mexico", "India", "France", "Iceland"]
# elements in this array must sum to 100.
percent = [35, 25, 15, 10, 10, 5]
colors = ["red", "green", "yellow", "fuchsia", "silver", "aqua"]
sum = 0
for i in range(len(percent) - 1, -1, -1):
self.addCurve()
self.getCurve().getSymbol().setSymbolType(SymbolType.BOX_SOUTHEAST)
self.getCurve().getSymbol().setModelHeight(percent[i])
self.getCurve().getSymbol().setBackgroundColor(colors[i])
self.getCurve().getSymbol().setBorderColor(colors[i])
self.getCurve().getSymbol().setWidth(SIZE)
self.getCurve().getSymbol().setHoverAnnotationSymbolType(
SymbolType.ANCHOR_MOUSE_SNAP_TO_Y)
self.getCurve().getSymbol().setHoverLocation(
AnnotationLocation.SOUTHEAST)
ht = "%s, %d%%" % (region[i], percent[i])
ht = formatAsHovertext(ht)
self.getCurve().getSymbol().setHovertextTemplate(ht)
self.getCurve().setLegendLabel(region[i])
self.getCurve().addPoint(0, 100 - sum)
self.getCurve().getPoint().setAnnotationText(region[i])
self.getCurve().getPoint().setAnnotationFontWeight("bold")
self.getCurve().getPoint().setAnnotationLocation(
AnnotationLocation.CENTER)
sum += percent[i]
self.getXAxis().setTickCount(0)
self.getXAxis().setTickThickness(0)
self.getXAxis().setAxisMin(0)
self.getXAxis().setAxisMax(SIZE)
self.getYAxis().setTickCount(0)
self.getYAxis().setTickThickness(0)
self.getYAxis().setAxisMin(0)
self.getYAxis().setAxisMax(100)
def __init__(self):
GChart.__init__(self)
self.setChartTitle("<b><i>Market Share by Region</i></b>")
SIZE = 200
self.setChartSize(SIZE, SIZE)
region = ["USA", "Canada", "Mexico", "India", "France", "Iceland"]
# elements in this array must sum to 100.
percent = [35, 25, 15, 10, 10, 5]
colors = ["red", "green", "yellow", "fuchsia", "silver", "aqua"]
sum = 0
for i in range(len(percent)-1, -1, -1):
self.addCurve()
self.getCurve().getSymbol().setSymbolType(SymbolType.BOX_SOUTHEAST)
self.getCurve().getSymbol().setModelHeight(percent[i])
self.getCurve().getSymbol().setBackgroundColor(colors[i])
self.getCurve().getSymbol().setBorderColor(colors[i])
self.getCurve().getSymbol().setWidth(SIZE)
self.getCurve().getSymbol().setHoverAnnotationSymbolType(
SymbolType.ANCHOR_MOUSE_SNAP_TO_Y)
self.getCurve().getSymbol().setHoverLocation(
AnnotationLocation.SOUTHEAST)
ht = "%s, %d%%" % (region[i], percent[i])
ht = formatAsHovertext(ht)
self.getCurve().getSymbol().setHovertextTemplate(ht)
self.getCurve().setLegendLabel(region[i])
self.getCurve().addPoint(0, 100-sum)
self.getCurve().getPoint().setAnnotationText(region[i])
self.getCurve().getPoint().setAnnotationFontWeight("bold")
self.getCurve().getPoint().setAnnotationLocation(
AnnotationLocation.CENTER)
sum += percent[i]
self.getXAxis().setTickCount(0)
self.getXAxis().setTickThickness(0)
self.getXAxis().setAxisMin(0)
self.getXAxis().setAxisMax(SIZE)
self.getYAxis().setTickCount(0)
self.getYAxis().setTickThickness(0)
self.getYAxis().setAxisMin(0)
self.getYAxis().setAxisMax(100)
def __init__(self):
GChart.__init__(self)
pieMarketShare = [0.65,0.20,0.10,0.05]
pieTypes = ["Apple", "Cherry", "Pecan", "Bannana"]
pieColors = ["green", "red", "maroon", "yellow"]
self.setChartSize(300, 200)
self.setChartTitle("<h3>2008 Sales by Pie Flavor" +
"<br>(Puny Pies, Inc.) </h3>")
self.setLegendVisible(False)
self.getXAxis().setAxisVisible(False)
self.getYAxis().setAxisVisible(False)
self.getXAxis().setAxisMin(0)
self.getXAxis().setAxisMax(10)
self.getXAxis().setTickCount(0)
self.getYAxis().setAxisMin(0)
self.getYAxis().setAxisMax(10)
self.getYAxis().setTickCount(0)
# this line orients the center of the first slice (apple) due east
self.setInitialPieSliceOrientation(0.75 - pieMarketShare[0]/2)
for i in range(len(pieMarketShare)):
self.addCurve()
self.getCurve().addPoint(5,5)
self.getCurve().getSymbol().setSymbolType(
SymbolType.PIE_SLICE_OPTIMAL_SHADING)
self.getCurve().getSymbol().setBorderColor("white")
self.getCurve().getSymbol().setBackgroundColor(pieColors[i])
# next two lines define pie diameter in x-axis model units
self.getCurve().getSymbol().setModelWidth(6)
self.getCurve().getSymbol().setHeight(0)
self.getCurve().getSymbol().setFillSpacing(0)
self.getCurve().getSymbol().setFillThickness(3)
self.getCurve().getSymbol().setHovertextTemplate(
formatAsHovertext(pieTypes[i] + ", " +
"%d%%" % round(100*pieMarketShare[i])))
self.getCurve().getSymbol().setPieSliceSize(pieMarketShare[i])
self.getCurve().getPoint().setAnnotationText(pieTypes[i])
self.getCurve().getPoint().setAnnotationLocation(
AnnotationLocation.OUTSIDE_PIE_ARC)
def __init__(self):
GChart.__init__(self)
pieMarketShare = [0.65, 0.20, 0.10, 0.05]
pieTypes = ["Apple", "Cherry", "Pecan", "Bannana"]
pieColors = ["green", "red", "maroon", "yellow"]
self.setChartSize(300, 200)
self.setChartTitle("<h3>2008 Sales by Pie Flavor" +
"<br>(Puny Pies, Inc.) </h3>")
self.setLegendVisible(False)
self.getXAxis().setAxisVisible(False)
self.getYAxis().setAxisVisible(False)
self.getXAxis().setAxisMin(0)
self.getXAxis().setAxisMax(10)
self.getXAxis().setTickCount(0)
self.getYAxis().setAxisMin(0)
self.getYAxis().setAxisMax(10)
self.getYAxis().setTickCount(0)
# this line orients the center of the first slice (apple) due east
self.setInitialPieSliceOrientation(0.75 - pieMarketShare[0] / 2)
for i in range(len(pieMarketShare)):
self.addCurve()
self.getCurve().addPoint(5, 5)
self.getCurve().getSymbol().setSymbolType(
SymbolType.PIE_SLICE_OPTIMAL_SHADING)
self.getCurve().getSymbol().setBorderColor("white")
self.getCurve().getSymbol().setBackgroundColor(pieColors[i])
# next two lines define pie diameter in x-axis model units
self.getCurve().getSymbol().setModelWidth(6)
self.getCurve().getSymbol().setHeight(0)
self.getCurve().getSymbol().setFillSpacing(0)
self.getCurve().getSymbol().setFillThickness(3)
self.getCurve().getSymbol().setHovertextTemplate(
formatAsHovertext(pieTypes[i] + ", " +
"%d%%" % round(100 * pieMarketShare[i])))
self.getCurve().getSymbol().setPieSliceSize(pieMarketShare[i])
self.getCurve().getPoint().setAnnotationText(pieTypes[i])
self.getCurve().getPoint().setAnnotationLocation(
AnnotationLocation.OUTSIDE_PIE_ARC)
def _bar_segment_hover_text(self, testrun_id, symbol, step_idx, dts):
"""
The hover text for the bar segment
@type testrun_id: C{str}
@param testrun_id: The testrun id
@type symbol: L{pyjamas.chart.Symbol}
@param symbol: The
@type step_idx: C{int}
@param step_idx: The index of the `step` in te testrun (for this bar)
@type dts: C{list} of C{int}
@param dts: The timedeltas for the whole testrun
"""
symbol.setHoverAnnotationSymbolType(SymbolType.ANCHOR_MOUSE_SNAP_TO_Y)
symbol.setHoverLocation(AnnotationLocation.SOUTHEAST)
start_time = sum(dts[:step_idx])
end_time = sum(dts[:step_idx + 1])
step = self._steps[step_idx]
ht = "<b>%s</b> <i>%s</i>: %ss-%ss" % (testrun_id, step, start_time,
end_time)
ht = formatAsHovertext(ht)
symbol.setHovertextTemplate(ht)
** setAnnotationFontWeight
**
*"""
DEFAULT_FONT_WEIGHT = "normal"
"""*
** The default template string used to generate the hovertext
** displayed when the user hovers their mouse above a point
** on a curve (pie slices have a different default).
**
** @see Symbol#setHovertextTemplate setHovertextTemplate
** @see #DEFAULT_PIE_SLICE_HOVERTEXT_TEMPLATE
** DEFAULT_PIE_SLICE_HOVERTEXT_TEMPLATE
**
"""
DEFAULT_HOVERTEXT_TEMPLATE = formatAsHovertext("(${x}, ${y})")
"""*
** The default hover feedback location used to position the
** hover feedback when the user hovers their mouse above a point
** on a curve (pie slices, and bar symbols have different
** defaults).
**
** @see Symbol#setHoverLocation setHoverLocation
** @see #DEFAULT_PIE_SLICE_HOVER_LOCATION DEFAULT_PIE_SLICE_HOVER_LOCATION
** @see #DEFAULT_VBAR_BASELINE_HOVER_LOCATION DEFAULT_VBAR_BASELINE_HOVER_LOCATION
** @see #DEFAULT_VBARBOTTOM_HOVER_LOCATION DEFAULT_VBARBOTTOM_HOVER_LOCATION
** @see #DEFAULT_VBARTOP_HOVER_LOCATION DEFAULT_VBARTOP_HOVER_LOCATION
** @see #DEFAULT_HBAR_BASELINE_HOVER_LOCATION DEFAULT_HBAR_BASELINE_HOVER_LOCATION
** @see #DEFAULT_HBARLEFT_HOVER_LOCATION DEFAULT_HBARLEFT_HOVER_LOCATION
** @see #DEFAULT_HBARRIGHT_HOVER_LOCATION DEFAULT_HBARRIGHT_HOVER_LOCATION
**
**
*"""
DEFAULT_FONT_WEIGHT = "normal"
"""*
** The default template string used to generate the hovertext
** displayed when the user hovers their mouse above a point
** on a curve (pie slices have a different default).
**
** @see Symbol#setHovertextTemplate setHovertextTemplate
** @see #DEFAULT_PIE_SLICE_HOVERTEXT_TEMPLATE
** DEFAULT_PIE_SLICE_HOVERTEXT_TEMPLATE
**
"""
DEFAULT_HOVERTEXT_TEMPLATE = formatAsHovertext("(${x}, ${y})")
"""*
** The default hover feedback location used to position the
** hover feedback when the user hovers their mouse above a point
** on a curve (pie slices, and bar symbols have different
** defaults).
**
** @see Symbol#setHoverLocation setHoverLocation
** @see #DEFAULT_PIE_SLICE_HOVER_LOCATION DEFAULT_PIE_SLICE_HOVER_LOCATION
** @see #DEFAULT_VBAR_BASELINE_HOVER_LOCATION DEFAULT_VBAR_BASELINE_HOVER_LOCATION
** @see #DEFAULT_VBARBOTTOM_HOVER_LOCATION DEFAULT_VBARBOTTOM_HOVER_LOCATION
** @see #DEFAULT_VBARTOP_HOVER_LOCATION DEFAULT_VBARTOP_HOVER_LOCATION
** @see #DEFAULT_HBAR_BASELINE_HOVER_LOCATION DEFAULT_HBAR_BASELINE_HOVER_LOCATION
** @see #DEFAULT_HBARLEFT_HOVER_LOCATION DEFAULT_HBARLEFT_HOVER_LOCATION
** @see #DEFAULT_HBARRIGHT_HOVER_LOCATION DEFAULT_HBARRIGHT_HOVER_LOCATION
**