本文整理汇总了Python中reportlab.graphics.charts.legends.Legend类的典型用法代码示例。如果您正苦于以下问题:Python Legend类的具体用法?Python Legend怎么用?Python Legend使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
在下文中一共展示了Legend类的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: legend_draw
def legend_draw(self, labels, chart, **kwargs):
legend = Legend()
chart_type = kwargs['type']
# legend.fontName = 'FreeSans'
legend.fontSize = 13
legend.strokeColor = None
if 'x' in kwargs:
legend.x = kwargs['x']
if 'y' in kwargs:
legend.y = kwargs['y']
legend.alignment = 'right'
if 'boxAnchor' in kwargs:
legend.boxAnchor = kwargs['boxAnchor']
if 'columnMaximum' in kwargs:
legend.columnMaximum = kwargs['columnMaximum']
# x-distance between neighbouring swatche\s
legend.deltax = 0
lcolors = get_random_colors(10)
if chart_type == 'line':
lcolors = [colors.red, colors.blue]
elif chart_type == 'pie':
lcolors = [colors.darkgreen, colors.darkblue] + lcolors
legend.colorNamePairs = list(zip(lcolors, labels))
for i, color in enumerate(lcolors):
if chart_type == 'line':
chart.lines[i].fillColor = color
elif chart_type == 'pie':
chart.slices[i].fillColor = color
elif chart_type == 'bar':
chart.bars[i].fillColor = color
return legend示例2: sample4pie
def sample4pie():
width = 300
height = 150
d = Drawing(width, height)
pc = Pie()
pc.x = 150
pc.y = 50
pc.data = [1, 50, 100, 100, 100, 100, 100, 100, 100, 50]
pc.labels = ["0", "a", "b", "c", "d", "e", "f", "g", "h", "i"]
pc.slices.strokeWidth = 0.5
pc.slices[3].popout = 20
pc.slices[3].strokeWidth = 2
pc.slices[3].strokeDashArray = [2, 2]
pc.slices[3].labelRadius = 1.75
pc.slices[3].fontColor = colors.red
d.add(pc)
legend = Legend()
legend.x = width - 5
legend.y = height - 5
legend.dx = 20
legend.dy = 5
legend.deltax = 0
legend.boxAnchor = "nw"
legend.colorNamePairs = Auto(chart=pc)
d.add(legend)
return d示例3: sample4pie
def sample4pie():
width = 300
height = 150
d = Drawing(width, height)
pc = Pie()
pc.x = 150
pc.y = 50
pc.data = [1, 50, 100, 100, 100, 100, 100, 100, 100, 50]
pc.labels = ['0','a','b','c','d','e','f','g','h','i']
pc.slices.strokeWidth=0.5
pc.slices[3].popout = 20
pc.slices[3].strokeWidth = 2
pc.slices[3].strokeDashArray = [2,2]
pc.slices[3].labelRadius = 1.75
pc.slices[3].fontColor = colors.red
d.add(pc)
legend = Legend()
legend.x = width-5
legend.y = height-5
legend.dx = 20
legend.dy = 5
legend.deltax = 0
legend.boxAnchor = 'nw'
legend.colorNamePairs=Auto(chart=pc)
d.add(legend)
return d示例4: __init__
def __init__(self, data, labels):
super(PieChart, self).__init__(400,200)
colors = [
HexColor("#0000e5"),
HexColor("#ff0011"),
HexColor("#800000"),
HexColor("#e05897"),
HexColor("#a08ff7"),
HexColor("#8f8ff5"),
HexColor("#c7c7fa"),
HexColor("#800000"),
HexColor("#eb8585"),
HexColor("#d60a0a"),
HexColor("#ffff00"),
HexColor("#1f1feb"),
]
# Create pie chart
pieChart = Pie()
pieChart.x = 40
pieChart.y = 30
pieChart.width = 120
pieChart.height = 120
pieChart.slices.strokeWidth=0.5
data = json.loads(data)
pieChart.data = data
pieChart.labels = []
labels = json.loads(labels.replace("'",'"'))
for d in data:
pieChart.labels.append(str(d))
# Create legend
legend = Legend()
legend.x = 380
legend.y = 60
legend.boxAnchor = 'se'
legend.subCols[1].align = 'right'
legend.colorNamePairs = []
len_data = len(data)
for i in range(0,len_data):
pieChart.slices[i].fillColor = colors[i]
legend.colorNamePairs.append((colors[i],labels[i]))
self.add(pieChart, "pie chart")
self.add(legend, "legend")示例5: make_legend
def make_legend(self, drawing, chart):
if not self.legend_labels:
return
# Get legend labels
labels = self.get_legend_labels()
# Legend object
legend = Legend()
legend.colorNamePairs = zip(self.colors[:len(labels)], labels)
legend.columnMaximum = len(legend.colorNamePairs)
legend.deltay = 5
legend.alignment = 'right'
legend.x = drawing.width + 40
legend.y = drawing.height - (self.title and self.title.get('height', DEFAULT_TITLE_HEIGHT) or 0)
# Sets legend extra attributes if legend_labels is a dictionary
if isinstance(self.legend_labels, dict):
for k,v in self.legend_labels.items():
if k != 'labels' and v:
setattr(legend, k, v)
drawing.add(legend)
return legend示例6: createReadsHistogram
def createReadsHistogram(self):
'''
Routine to create histogram of numbers of 'reads' for given years
'''
# The vertical bar chart will get added to the 'drawing' object
drawing = Drawing(400, 200)
# Now we can start constructing the vertical bar chart
lc = VerticalBarChart()
lc.x = 30
lc.y = 50
lc.height = 125
lc.width = 350
# Record the years, because these values will be used as x axis labels
years = sorted(map(lambda b: int(b), filter(lambda a: a.isdigit(), self.data['reads histogram'].keys())))
# This list will hold the data points for the histogram
lc.data = []
# Record the counts of both reads of refereed and non-refereed papers
refereed = []
non_refereed = []
# The maximum number of reads will be used to scale the y axis
max_reads = 0
# Take only the first two values of each value string in the histogram data
# The first is for 'all' papers, the second for the 'refereed' papers
for year in years:
values = map(lambda a: int(a),self.data['reads histogram'][str(year)].split(':')[:2])
max_reads = max(max_reads,max(values))
refereed.append(values[1])
non_refereed.append(values[0]-values[1])
lc.data.append(refereed)
lc.data.append(non_refereed)
# Proper label placement for years: shift by (-6, -6) in x and y to have labels positioned properly
lc.categoryAxis.labels.dx = -6
lc.categoryAxis.labels.dy = -6
# and rotate the labels by 90 degrees
lc.categoryAxis.labels.angle = 90
# Define the value step and maximum for the y axis
lc.valueAxis.valueMax = int(math.ceil(float(max_reads)/10.0))*10
lc.valueAxis.valueStep = max(int(math.floor(float(max_reads)/10.0)),1)
lc.valueAxis.valueMin = 0
# The label names are the access years
lc.categoryAxis.categoryNames = map(lambda a: str(a), years)
# Now add the histogram to the 'drawing' object
drawing.add(lc)
# Add a legend to the histogram so that we now which color means what
legend = Legend()
legend.alignment = 'right'
legend.x = 380
legend.y = 160
legend.deltax = 60
legend.dxTextSpace = 10
items = [(colors.red, 'refereed'), (colors.green, 'non-refereed')]
legend.colorNamePairs = items
drawing.add(legend, 'legend')
# Finally add a title to the histogram
drawing.add(String(200,190,"reads histogram", textAnchor="middle", fillColor='blue'))
# Append the result to the 'story'
self.story.append(drawing)示例7: myBarLegend
def myBarLegend(drawing, name1, name2):
"Add sample swatches to a diagram."
d = drawing or Drawing(400, 200)
swatches = Legend()
swatches.alignment = 'right'
swatches.x = 80
swatches.y = 160
swatches.deltax = 60
swatches.dxTextSpace = 10
swatches.columnMaximum = 4
items = [(colors.blue, name1), (colors.lightblue, name2)]
swatches.colorNamePairs = items
d.add(swatches, 'legend')
return d示例8: sample3
def sample3(drawing=None):
"Add sample swatches to a diagram."
d = drawing or Drawing(400, 200)
swatches = Legend()
swatches.alignment = 'right'
swatches.x = 80
swatches.y = 160
swatches.deltax = 60
swatches.dxTextSpace = 10
swatches.columnMaximum = 4
items = [(colors.red, 'before'), (colors.green, 'after')]
swatches.colorNamePairs = items
d.add(swatches, 'legend')
return d示例9: range
lp.xValueAxis.labels.dy = -10
lp.xValueAxis.labels.boxAnchor = 'e'
lp.yValueAxis.labelTextFormat = lambda value: '%d MB' % (int(value) / 1000)
lp.yValueAxis.labels.fontName = 'Helvetica'
lp.yValueAxis.labels.fontSize = 7
lp.yValueAxis.visibleGrid = True
lp.yValueAxis.drawGridLast = True
lp.yValueAxis.valueMin = 0
if reserved:
if reserved[0]: lp.yValueAxis.valueMax = reserved[0]
if reserved[1]: lp.yValueAxis.valueStep = reserved[1]
for i in range(len(names)):
lp.lines[i].strokeColor = self.Color[i]
legend = Legend()
legend.x = 0
legend.y = h - 30
legend.boxAnchor = 'sw'
legend.colorNamePairs = [(self.Color[i], names[i]) for i in range(len(names))]
legend.fontName = 'Helvetica'
legend.fontSize = 8
legend.dxTextSpace = 5
legend.dy = 5
legend.dx = 5
legend.deltay = 5
legend.alignment ='right'
drawing.add(lp)
drawing.add(legend)
示例10: create_single_grade_pdf
#.........这里部分代码省略.........
bc.bars.symbol.fillColorStart = colors.lightblue
bc.bars.symbol.fillColorEnd = colors.lightblue
bc.bars.symbol.strokeWidth = 0
#this draws a line at the top of the graph to close it.
bc.strokeColor = colors.black
#Y-axis min, max, and steps.
if minimum != 100:
bc.valueAxis.valueMin = minimum -10
else:
bc.valueAxis.valueMin = 50
bc.valueAxis.valueMax = 100
bc.valueAxis.valueStep = 5
#where to anchor the origin of the graph
bc.categoryAxis.labels.boxAnchor = 'ne'
#Locations of labels for the X-axis
bc.categoryAxis.labels.dx = 2
bc.categoryAxis.labels.dy = -2
bc.barLabels.nudge = -10
bc.barLabelFormat = '%.2f%%'
bc.barLabels.dx = 0
bc.barLabels.dy = 0
#The angle of the lables for the X-axis
bc.categoryAxis.labels.angle = 30
#List of the categories to place on the X-axis
bc.categoryAxis.categoryNames = standard_ref_list
drawing.add(bc)
'''------'''
'''--Graph Legend--'''
#Graph Legend
legend = Legend()
legend.alignment = 'right'
legend.x = 420
legend.y = 150
legend.deltax = 60
legend.dxTextSpace = 10
legend.columnMaximum = 4
legend.colorNamePairs = [(colors.lightblue, 'grade average')]
drawing.add(legend, 'legend')
drawing_title = "Bar Graph"
Story.append(drawing)
Story.append(Spacer(1,15))
#LineGraph Title
ptext = '<font size=15><b>Class Performance by Assignment</b></font>'
Story.append(Paragraph(ptext, styles["title"]))
Story.append(Spacer(1,30))
'''
Line Plot Graph ------
'''
assignment_data_all =[[],[]]
for key in assignment_dict.keys():
assignment_data_all[0].append(assignment_dict[key][2])
assignment_data_all[1].append(assignment_dict[key][1])
drawing2 = Drawing(600, 200)
data2 = assignment_data_all
#lp = LinePlot()
#data[0] = preprocessData(data[0])示例11: make_graphs
def make_graphs(self,canvas=None,left_margin=None):#text=None):
from reportlab.graphics import renderPDF
from reportlab.lib.pagesizes import letter
from reportlab.graphics.shapes import Drawing,String
from reportlab.graphics.charts.legends import Legend
from reportlab.graphics.charts.lineplots import LinePlot
from reportlab.graphics.widgets.markers import makeMarker
from reportlab.lib import colors
from reportlab.lib.units import inch
#help(colors)
self.framework = {4:dict(status=SpotClass.SPINDLE,color=colors.black),
5:dict(status=SpotClass.OVERLAP,color=colors.limegreen),
6:dict(status=SpotClass.OUTLIER,color=colors.greenyellow),
7:dict(status=SpotClass.ICE,color=colors.skyblue),
}
# set size and position
width,height = letter
#letter_landscape = (width,height)
plot_dim = 3.0*inch
# construct scatter plot
plot_dxdy_pos = (left_margin*inch,height - plot_dim - 0.5*inch)
plot_dxdy = LinePlot()
plot_dxdy.data = self.plot_dxdy_data
std_colors = {0:colors.darkred, 1:colors.red, 2:colors.salmon}
for key in std_colors.keys():
plot_dxdy.lines[key].strokeColor = None
plot_dxdy.lines[key].symbol = makeMarker('Circle')
plot_dxdy.lines[key].symbol.strokeColor = None
plot_dxdy.lines[key].symbol.fillColor = std_colors[key]
plot_dxdy.lines[key].symbol.size = 1.2
for key in self.framework.keys():
plot_dxdy.lines[key].strokeColor = None
plot_dxdy.lines[key].symbol = makeMarker('Circle')
plot_dxdy.lines[key].symbol.strokeColor = None
plot_dxdy.lines[key].symbol.fillColor = self.framework[key]["color"]
plot_dxdy.lines[key].symbol.size = 1.2
plot_dxdy.lines[3].strokeColor = None
plot_dxdy.lines[3].symbol = makeMarker('Circle')
plot_dxdy.lines[3].symbol.strokeColor = colors.blue
plot_dxdy.lines[3].symbol.fillColor = None
plot_dxdy.lines[3].symbol.strokeWidth = 0.6
plot_dxdy.lines[3].symbol.size = plot_dim*(self.sqrtr2)
#print plot_dxdy.lines[3].symbol.getProperties()
plot_dxdy.width = plot_dim
plot_dxdy.height = plot_dim
plot_dxdy.xValueAxis.valueMax = 1.0
plot_dxdy.xValueAxis.valueMin = -1.0
plot_dxdy.xValueAxis.joinAxis = plot_dxdy.yValueAxis
plot_dxdy.xValueAxis.joinAxisMode = 'value'
plot_dxdy.xValueAxis.joinAxisPos = -1.0
plot_dxdy.yValueAxis.valueMax = 1.0
plot_dxdy.yValueAxis.valueMin = -1.0
d_dxdy = Drawing(plot_dim,plot_dim)
d_dxdy.add(plot_dxdy)
# construct cdf plot
plot_cdf_pos = (left_margin*inch, height - 2.0*(plot_dim + 0.5*inch))
plot_cdf = LinePlot()
plot_cdf.data = self.plot_cdf_data
plot_cdf.lines[0].strokeColor = colors.blue
for key in std_colors.keys():
plot_cdf.lines[key+1].strokeColor = None
plot_cdf.lines[key+1].symbol = makeMarker('Circle')
plot_cdf.lines[key+1].symbol.strokeColor = None
plot_cdf.lines[key+1].symbol.fillColor = std_colors[key]
plot_cdf.lines[key+1].symbol.size = 1.2
if (len(self.plot_cdf_data) == 5):
plot_cdf.lines[4].strokeColor = colors.green
plot_cdf.width = plot_dim
plot_cdf.height = plot_dim
plot_cdf.xValueAxis.valueMax = 1.0
plot_cdf.xValueAxis.valueMin = 0.0
plot_cdf.yValueAxis.valueMax = 1.0
plot_cdf.yValueAxis.valueMin = 0.0
d_cdf = Drawing(plot_dim,plot_dim)
d_cdf.add(plot_cdf)
# construct pdf plot
plot_pdf_pos = (left_margin*inch, height - 3.0*(plot_dim + 0.5*inch))
plot_pdf = LinePlot()
plot_pdf.data = self.plot_pdf_data
plot_pdf.lines[1].strokeColor = colors.blue
plot_pdf.lines[0].strokeColor = None
plot_pdf.lines[0].symbol = makeMarker('Circle')
plot_pdf.lines[0].symbol.strokeColor = colors.red
plot_pdf.lines[0].symbol.size = 1
plot_pdf.width = plot_dim
plot_pdf.height = plot_dim
plot_pdf.xValueAxis.valueMax = 1.0
plot_pdf.xValueAxis.valueMin = 0.0
d_pdf = Drawing(2*plot_dim,plot_dim)
#.........这里部分代码省略.........
示例12: run
#.........这里部分代码省略.........
# Lookup the integer weight of this answer
if value in answeroptions:
index = answeroptions.index(value)
weight = weights[index]
# Always add to the list. ReportLab deals with None.
if counter == 0:
dimension_one_values.append(weight)
else:
dimension_two_values.append(weight)
counter += 1
# Set minmax
absmax = max(abs(minval), abs(maxval)) * 1.1
lc.xValueAxis.valueMin = -absmax
lc.xValueAxis.valueMax = absmax
lc.yValueAxis.valueMin = -absmax
lc.yValueAxis.valueMax = absmax
# Zip to create data
data = [zip(dimension_one_values, dimension_two_values)]
if not len(data[0]):
return
lc.x = 0
lc.y = 0
# Misc setup
lc.height = 300
lc.width = 300
lc.data = data
lc.joinedLines = 0
lc.fillColor = None
lc.lines[0].strokeColor = colors.red
lc.lines[0].symbol = makeMarker('FilledCircle')
# Add a grid
grid = DoubleGrid()
lc.background = grid
setupGrid(lc)
lc.background = None
# Finetune the grid
grid.grid0.strokeWidth = 0.2
grid.grid1.strokeWidth = 0.2
# Add to drawing else it overwrites the center Y axis
drawing.add(grid)
# Add a Y axis to pass through the origin
yaxis = YValueAxis()
yaxis.setPosition(lc.width/2, 0, lc.height)
yaxis.configure([(0,-absmax),(0,absmax)])
yaxis.strokeColor = colors.blue
drawing.add(yaxis)
# Color X-Axis
lc.xValueAxis.strokeColor = colors.green
drawing.add(lc)
# Legend for Dimension One
drawing.add(String(lc.width+20, lc.height-12, 'Dimension One (X-Axis):',
fontName='Helvetica', fontSize=12, fillColor=colors.green))
legend = Legend()
legend.alignment = 'right'
legend.x = lc.width + 20
legend.y = lc.height - 20
legend.fontName = 'Helvetica'
legend.fontSize = 12
legend.columnMaximum = 7
items = []
for ob in dimension_one_answeroptions_as_objects:
items.append( ( StringWidget(ob.getWeight()), ob() ) )
legend.colorNamePairs = items
drawing.add(legend, 'legend1')
# Legend for Dimension Two
drawing.add(String(lc.width+20, lc.height/2-12, 'Dimension Two (Y-Axis):',
fontName='Helvetica', fontSize=12, fillColor=colors.blue))
legend = Legend()
legend.alignment = 'right'
legend.x = lc.width + 20
legend.y = lc.height/2 - 20
legend.fontName = 'Helvetica'
legend.fontSize = 12
legend.columnMaximum = 7
items = []
for ob in dimension_two_answeroptions_as_objects:
items.append( ( StringWidget(ob.getWeight()), ob() ) )
legend.colorNamePairs = items
drawing.add(legend, 'legend2')
# Write out
data = drawing.asString('png')
request = self.REQUEST
response = request.RESPONSE
response.setHeader('Content-Type', 'image/png')
response.setHeader('Content-Disposition','inline; filename=%s.png' % self.getId())
response.setHeader('Content-Length', len(data))
response.setHeader('Cache-Control', 's-maxage=0')
return data示例13: setLegend
def setLegend(self):
legend = Legend()
legend.colorNamePairs = []
legend.fontName = 'Helvetica-Bold'
legend.fontSize = 12
legend.x = 100
legend.y = 110
legend.dxTextSpace = 5
legend.dy = 20
legend.dx = 20
legend.deltay = 5
legend.deltax = 7
legend.columnMaximum = 1
legend.alignment ='right'
legend.x = 60
legend.y = 50
legend.columnMaximum = 2
legend.colorNamePairs = []
legend.colorNamePairs.append((colors.green,
self._data_dict['max_score_legend']))
legend.colorNamePairs.append((colors.red,
self._data_dict['score_legend']))
self.add(legend, name='Legend')示例14: generar_pdf_busquedas_view
#.........这里部分代码省略.........
bc.categoryAxis.labels.dy = -2
bc.categoryAxis.labels.angle = 0
bc.categoryAxis.categoryNames = ['Encontradas', 'No Encontradas']
drawing.add(bc)
bc.barLabels.nudge = 20
bc.barLabelFormat = '%0.0f'
bc.barLabels.dx = 0
bc.barLabels.dy = 0
bc.barLabels.boxAnchor = 'n' # irrelevant (becomes 'c')
bc.barLabels.fontName = 'Helvetica'
bc.barLabels.fontSize = 14
#GRAFICAS DE PASTEL
titulo2 = Paragraph("Busquedas y número de veces realizadas", estilo['title'])
d = Drawing(400, 200)
pc = Pie()
pc.x = 125
pc.y = 25
pc.data = lista
print lista
#pc.data = [7, 1, 1, 1, 1, 2]
#pc.labels = [ str(i.values()) for i in Busqueda.objects.filter(fecha__range=(fecha_inicio, fecha_final)).values('busqueda').distinct()]
lista_labels = [ str(i.values()) for i in Busqueda.objects.filter(fecha__range=(fecha_inicio, fecha_final)).values('busqueda').distinct()]
#pc.labels = ['example1', 'example2', 'example3', 'example4', 'example5', 'example6']
pc.sideLabels = 1
pc.width = 150
pc.height = 150
pc.slices.strokeWidth=1#0.5
pc.slices[0].fillColor = colors.yellow
pc.slices[1].fillColor = colors.thistle
pc.slices[2].fillColor = colors.cornflower
pc.slices[3].fillColor = colors.lightsteelblue
pc.slices[4].fillColor = colors.aquamarine
pc.slices[5].fillColor = colors.cadetblue
d.add(pc)
legend = Legend()
legend.x = 370
legend.y = 0
legend.dx = 10
legend.dy = 10
legend.fontName = 'Helvetica'
legend.fontSize = 10
legend.boxAnchor = 'n'
legend.columnMaximum = 10
legend.strokeWidth = 1
legend.strokeColor = colors.black
legend.deltax = 75
legend.deltay = 10
legend.autoXPadding = 5
legend.yGap = 0
legend.dxTextSpace = 5
legend.alignment = 'right'
legend.dividerLines = 1|2|4
legend.dividerOffsY = 4.5
legend.subCols.rpad = 30
#Insertemos nuestros propios colores
colores = [colors.blue, colors.red, colors.green, colors.yellow, colors.black, colors.white, colors.silver, colors.pink, colors.brown, colors.orange, colors.purple]
for i, color in enumerate(colores):
pc.slices[i].fillColor = color
legend.colorNamePairs = [(
pc.slices[i].fillColor,
(lista_labels[i][0:200], '%0.0f' % pc.data[i])
) for i in xrange(len(pc.data))]
d.add(pc)
reportes.append(t)
reportes.append(Spacer(0, inch*.1))
reportes.append(Spacer(0, inch*.1))
reportes.append(Spacer(0, inch*.1))
reportes.append(titulo)
reportes.append(drawing)
reportes.append(Spacer(0, inch*.1))
reportes.append(Spacer(0, inch*.1))
reportes.append(titulo2)
d.add(legend)
reportes.append(d)
doc.build(reportes)
response.write(buff.getvalue())
buff.close()
return response示例15: Label
xlbl.setOrigin(310, 72)
ylbl = Label()
ylbl.setText("Percentage\n (%)")
ylbl.setOrigin(28, 260)
lp.lines[0].strokeColor = colors.darkgreen
lp.lineLabels[0].strokeColor = colors.darkgreen
lp.lines[1].strokeColor = colors.tomato
lp.lineLabels[1].strokeColor = colors.tomato
lp.lines[2].strokeColor = colors.aquamarine
lp.lineLabels[2].strokeColor = colors.aquamarine
lp.lines[3].strokeColor = colors.purple
lp.lineLabels[3].strokeColor = colors.purple
lgnd = Legend()
lgnd.x = 70
lgnd.y = 63
lgnd.autoXPadding = 45
lgnd.colorNamePairs = [ (lp.lines[0].strokeColor, 'Positive'),
(lp.lines[1].strokeColor, 'Negative'),
(lp.lines[2].strokeColor, 'Norm. Pos.'),
(lp.lines[3].strokeColor, 'Norm. Neg.')
]
lgnd.demo()
d.add(lp)
d.add(lgnd)
d.add(xlbl)
d.add(ylbl)
d.save(fnRoot='testLinePlot1', formats=['png', 'pdf'])开发者ID:oommenkm,项目名称:APRIORI-HYBRID-clustering-Algorithm-for-microarray-data,代码行数:31,代码来源:draw_linePlot_1_0.py