# Copyright (C) University of Tennessee Health Science Center, Memphis, TN.
#
# This program is free software: you can redistribute it and/or modify it
# under the terms of the GNU Affero General Public License
# as published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the GNU Affero General Public License for more details.
#
# This program is available from Source Forge: at GeneNetwork Project
# (sourceforge.net/projects/genenetwork/).
#
# Contact Drs. Robert W. Williams and Xiaodong Zhou (2010)
# at rwilliams@uthsc.edu and xzhou15@uthsc.edu
#
#
#
# This module is used by GeneNetwork project (www.genenetwork.org)
#
# Created by GeneNetwork Core Team 2010/08/10
#
# Last updated by GeneNetwork Core Team 2010/10/20
import string
import piddle as pid
import os
import math
from htmlgen import HTMLgen2 as HT
from utility import svg
from base import webqtlConfig
from utility import Plot
from utility import webqtlUtil
from base.webqtlDataset import webqtlDataset
from base.templatePage import templatePage
#########################################
# Genome Scan PAGE
#########################################
class cmdGenomeScanPage(templatePage):
def __init__(self,fd):
templatePage.__init__(self,fd)
if not self.openMysql():
return
self.database = fd.formdata.getvalue('database', '')
db = webqtlDataset(self.database, self.cursor)
try:
self.openURL = webqtlConfig.CGIDIR + webqtlConfig.SCRIPTFILE + \
'?FormID=showDatabase&database=%s&incparentsf1=1&ProbeSetID=' % self.database
if db.type != "ProbeSet" or not db.id:
raise DbNameError
self.cursor.execute("""
Select
InbredSet.Name
From
ProbeSetFreeze, ProbeFreeze, InbredSet
whERE
ProbeSetFreeze.ProbeFreezeId = ProbeFreeze.Id AND
ProbeFreeze.InbredSetId = InbredSet.Id AND
ProbeSetFreeze.Id = %d
""" % db.id)
thisRISet = self.cursor.fetchone()[0]
if thisRISet =='BXD300':
thisRISet = 'BXD'
##################################################
# exon data is too huge for GenoGraph, skip it #
##################################################
self.cursor.execute('select count(*) from ProbeSetXRef where ProbeSetFreezeId=%d' % db.id)
amount = self.cursor.fetchall()
if amount:
amount = amount[0][0]
if amount>100000:
heading = "Whole Transcriptome Mapping"
detail = ["Whole Transcriptome Mapping is not available for this data set."]
self.error(heading=heading,detail=detail)
return
self.cursor.execute("""
Select
ProbeSet.Id, ProbeSet.Name, ProbeSet.Chr, ProbeSet.Mb, ProbeSetXRef.Locus, ProbeSetXRef.pValue
From
ProbeSet, ProbeSetXRef
whERE
ProbeSetXRef.ProbeSetFreezeId = %d AND
ProbeSetXRef.ProbeSetId = ProbeSet.Id AND
ProbeSetXRef.Locus is not NULL
""" % db.id)
results = self.cursor.fetchall()
if results:
self.mouseChrLengthDict, sum = self.readMouseGenome(thisRISet)
import reaper
markerGMb = {}
genotype_1 = reaper.Dataset()
genotype_1.read(os.path.join(webqtlConfig.GENODIR, thisRISet + '.geno'))
for chr in genotype_1:
chrlen = self.mouseChrLengthDict[chr.name]
for locus in chr:
markerGMb[locus.name] = locus.Mb + chrlen
try:
FDR = float(fd.formdata.getvalue("fdr", ""))
except:
FDR = 0.2
self.grid = fd.formdata.getvalue("grid", "")
NNN = len(results)
results = list(results)
results.sort(self.cmppValue)
MbCoord = []
MbCoord2 = []
for j in range(NNN, 0, -1):
if results[j-1][-1] <= (FDR*j)/NNN:
break
if j > 0:
for i in range(j-1, -1, -1):
_Id, _probeset, _chr, _Mb, _marker, _pvalue = results[i]
try:
MbCoord.append([markerGMb[_marker], _Mb+self.mouseChrLengthDict[string.strip(_chr)], _probeset, _chr, _Mb, _marker, _pvalue])
except:
pass
filename=webqtlUtil.genRandStr("gScan_")
canvas = pid.PILCanvas(size=(1280,880))
self.drawGraph(canvas, MbCoord, cLength=sum)
canvas.save(os.path.join(webqtlConfig.IMGDIR, filename), format='png')
canvasSVG = self.drawSVG(MbCoord, cLength=sum, size=(1280,880))
canvasSVG.toXml(os.path.join(webqtlConfig.IMGDIR, filename+'.svg')) #and write it to file
img = HT.Embed(src='/image/'+filename+'.png', width=1280, height=880, border=0, alt='Genome Scan')
img2 = HT.Embed(src='/image/'+filename+'.svg', width=1280, height=880, border=0)
TD_LR = HT.TD(colspan=2,height=200,width="100%",bgColor='#eeeeee')
heading = HT.Paragraph('Whole Transcriptome Mapping')
heading.__setattr__("class","title")
intro = HT.Blockquote()
intro.append('The plot below is the Whole Transcriptome Mapping of Database ')
intro.append(HT.Href(text=db.fullname, url = webqtlConfig.INFOPAGEHREF % db.name ,target='_blank',Class="normalsize"))
intro.append(". %d from a total of %d ProbeSets were utilized to generate this graph." % (len(MbCoord), len(results)))
mainfm = HT.Form(cgi = os.path.join(webqtlConfig.CGIDIR, webqtlConfig.SCRIPTFILE), enctype='multipart/form-data', \
name=webqtlUtil.genRandStr("fm_"), submit=HT.Input(type='hidden'))
mainfm.append(HT.Input(name='database', value=self.database, type='hidden'))
mainfm.append(HT.Input(name='FormID', value='transciptMapping', type='hidden'))
mainfm.append("")
mainfm.append("0 < FDR <= 1.0 ")
mainfm.append(HT.Input(name='fdr', value=FDR, type='text'))
mainfm.append(HT.Input(name='submit', value='Redraw Graph', type='submit', Class='button'))
mainfm.append("
")
mainfm.append("""
""")
mainfm.append(img)
mainfm.append("""
""")
mainfm.append(img2)
mainfm.append("""
""")
TD_LR.append(heading, intro, HT.Paragraph(mainfm))
self.dict['title'] = 'Whole Transcriptome Mapping'
self.dict['body'] = TD_LR
else:
heading = "Whole Transcriptome Mapping"
detail = ["Database calculation is not finished."]
self.error(heading=heading,detail=detail)
return
except:
heading = "Whole Transcriptome Mapping"
detail = ["Whole Transcriptome Mapping only apply to Microarray database."]
self.error(heading=heading,detail=detail)
return
def drawSVG(self, data, cLength = 2500, offset= (80, 160, 60, 60), size=(1280,880),
XLabel="Marker GMb", YLabel="Transcript GMb"):
entities = {
"colorText" : "fill:darkblue;",
"strokeText" : ";stroke:none;stroke-width:0;",
"allText" : "font-family:Helvetica;",
"titleText" : "font-size:22;font-weight:bold;",
"subtitleText" : "font-size:18;font-weight:bold;",
"headlineText" : "font-size:14;font-weight:bold;",
"normalText" : "font-size:12;",
"legendText" : "font-size:11;text-anchor:end;",
"valuesText" : "font-size:12;",
"boldValuesText" : "font-size:12;font-weight:bold;",
"smallText" : "font-size:10;",
"vText" : "writing-mode:tb-rl",
"rightText" : "text-anchor:end;",
"middleText" : "text-anchor:middle;",
"bezgrenzstyle" : "fill:none;stroke:#11A0FF;stroke-width:40;stroke-antialiasing:true;",
"rectstyle" : "fill:lightblue;stroke:none;opacity:0.2;",
"fillUnbebaut" : "fill:#CCFFD4;stroke:none;",
"fillNodata" : "fill:#E7E7E7;stroke:black;stroke-width:2;stroke-antialiasing:true;",
"fillNodataLegend" : "fill:#E7E7E7;stroke:black;stroke-width:0.5;stroke-antialiasing:true;",
"grundzeitstyle" : "fill:none;stroke:#E00004;stroke-width:60;stroke-antialiasing:true;",
"bezgrenzstyle" : "fill:none;stroke:#11A0FF;stroke-width:40;stroke-antialiasing:true;",
"mapAuthor" : "A. Neumann",
}
cWidth, cHeight = size
canvasSVG = svg.drawing(entities) #create a drawing
drawSpace=svg.svg((0, 0, cWidth, cHeight), cWidth, cHeight, xml__space="preserve",
zoomAndPan="disable", onload="initMap(evt);",
xmlns__a3="http://ns.adobe.com/AdobeSVGViewerExtensions/3.0/",
a3__scriptImplementation="Adobe") #create a svg drawingspace
canvasds=svg.description('Genome Graph') #define a description
drawSpace.addElement(canvasds) #add the description to the svg
#need to be modified or deleted
xLeftOffset, xRightOffset, yTopOffset, yBottomOffset = offset
plotWidth = cWidth - xLeftOffset - xRightOffset
plotHeight = cHeight - yTopOffset - yBottomOffset
drawSpace.addElement(svg.script("", language="javascript", xlink__href="/javascript/svg.js"))
#add defs
defs = svg.defs()
symbol1= svg.symbol(id="magnifyer", overflow="visible",
style="fill:white;stroke:orange;stroke-width:2;")
symbol1.addElement(svg.line(0, 0, -8, 20))
symbol1.addElement(svg.circle(0, 0, 8))
symbol1.addElement(svg.line(-4, 0, 4, 0, style="stroke:orange;stroke-width:2;"))
defs.addElement(symbol1)
symbol2= svg.symbol(id="magnifyerZoomIn",overflow="visible")
symbol2.addElement(svg.use(link="#magnifyer", id="zoomIn"))
symbol2.addElement(svg.line(0, -4, 0, 4, style="stroke:orange;stroke-width:2;"))
defs.addElement(symbol2)
drawSpace.addElement(defs)
symbol3= svg.symbol(id="msgbox", overflow="visible",
style="fill:white;stroke:orange;stroke-width:1;opacity:0.8;")
symbol3.addElement(svg.rect(-80, -190, 300, 150, rx=10, ry=10))
symbol3.addElement(svg.line(21, -40, 58, -40, style="stroke:white;"))
symbol3.addElement(svg.polyline([[20, -40], [0, 0], [60, -40]]))
symbol3.addElement(svg.text(-60, -160, "ProbeSet ", style="&colorText; &allText; &subtitleText; &strokeText;"))
symbol3.addElement(svg.text(-60, -125, "Marker ", style="&colorText; &allText; &subtitleText; &strokeText;"))
symbol3.addElement(svg.text(-60, -90, "LRS ", style="&colorText; &allText; &subtitleText; &strokeText;"))
symbol3.addElement(svg.text(-60, -55, "P value ", style="&colorText; &allText; &subtitleText; &strokeText;"))
defs.addElement(symbol3)
g = svg.group("title")
g.addElement(svg.text(cWidth-40, 30, "Genome Graph", style="&colorText; &allText; &titleText; &rightText;"))
g.addElement(svg.text(cWidth-40, 50, "Whole Transcriptome Mapping", style="&colorText; &allText; &subtitleText; &rightText;"))
drawSpace.addElement(g)
#draw Main display area border
mainSquare = cHeight-60
cordZOOM = 10
drawSpace.addElement(svg.rect(8, 8, mainSquare+4, mainSquare+4,'none',"orange",0.5, rx="5", ry="5"))
drawSpace.addElement(svg.text(10+mainSquare/2, 40+mainSquare,'Marker GMb',
style="&colorText; &allText; &titleText; &middleText;", id="XLabel"))
drawSpace.addElement(svg.text(mainSquare + 80, 10+mainSquare/2,'Transcript GMb',
style="&colorText; &allText; &titleText; &middleText; &vText;", id="YLabel"))
#draw overview display area
drawSpace.addElement(svg.rect(cWidth-40-260, 60, 260, 260,'none',"orange",0.5, rx="5", ry="5"))
drawSpaceThumb= svg.svg(id="overviewPlot",x=cWidth-40-260,y="60",width="260",
height="260",viewBox=(0, 0, mainSquare*cordZOOM, mainSquare*cordZOOM))
g = svg.group(style="&bezgrenzstyle;")
g.addElement(svg.use("#grid"))
drawSpaceThumb.addElement(g)
drawSpaceThumb.addElement(svg.rect(id="overviewRect",style="&rectstyle;",
x="0",y="0",width=mainSquare*cordZOOM,height=mainSquare*cordZOOM,
onmouseover="statusChange('click and drag rectangle to change extent');",
onmousedown="beginPan(evt);", onmousemove="doPan(evt);",
onmouseup="endPan();", onmouseout="endPan();"))
drawSpace.addElement(drawSpaceThumb)
#draw navigator
g = svg.group(id="navigatorElements")
g.addElement(svg.use("#magnifyerZoomIn", id="zoomIn", transform="translate(%d,350)" % (cWidth-40-130-20),
onmouseover="magnify(evt,1.3,'in');", onmouseout="magnify(evt,1,'in');", onclick="zoomIt('in');"))
g.addElement(svg.use("#magnifyer", id="zoomOut", transform="translate(%d,350)" % (cWidth-40-130+20),
onmouseover="magnify(evt,1.3,'out');",onmouseout="magnify(evt,1,'out');", onclick="zoomIt('out');"))
drawSpace.addElement(g)
g = svg.group(id="statusBar")
g.addElement(svg.text(cWidth-40-260, 360, "ZOOM: 100%", style="fill:orange; font-size:14;", id="zoomValueObj"))
g.addElement(svg.text(cWidth-40-260, 380, "Status:", style="&colorText; &allText; &smallText;"))
g.addElement(svg.text(cWidth-40-260, 395, "Loading Plot", style="&colorText; &allText; &smallText;", id="statusText"))
drawSpace.addElement(g)
#draw main display area
drawSpaceMain= svg.svg((0, 0, mainSquare*cordZOOM, mainSquare*cordZOOM), mainSquare, mainSquare,
id="mainPlot",x="10",y="10")
mPlotWidth = mPlotHeight = 0.8*mainSquare*cordZOOM
drawSpaceMain.addElement(svg.rect(mainSquare*cordZOOM*0.1, mainSquare*cordZOOM*0.1, mPlotWidth, mPlotHeight,style="fill:white",
onmousemove="showChr(evt);", onmouseover="showChr(evt);", onmouseout="showNoChr(evt);"))
#draw grid
g = svg.group("grid", style="stroke:lightblue;stroke-width:3",
transform="translate(%d,%d)" % (mainSquare*cordZOOM*0.1, mainSquare*cordZOOM*0.1))
if 1: #self.grid == "on":
js = []
for key in self.mouseChrLengthDict.keys():
length = self.mouseChrLengthDict[key]
js.append(mPlotWidth*length/cLength)
if length != 0:
yCoord = mPlotHeight*(1.0-length/cLength)
l = svg.line(0,yCoord ,mPlotWidth, yCoord)
g.addElement(l)
xCoord = mPlotWidth*length/cLength
l = svg.line(xCoord, 0 ,xCoord, mPlotHeight)
g.addElement(l)
js.sort()
drawSpace.addElement(svg.script("",language="javascript", cdata="var openURL=\"%s\";\nvar chrLength=%s;\n" % (self.openURL, js)))
g.addElement(svg.rect(0, 0, mPlotWidth, mPlotHeight,'none','black',10))
drawSpaceMain.addElement(g)
#draw Scale
g = svg.group("scale", style="stroke:black;stroke-width:0",
transform="translate(%d,%d)" % (mainSquare*cordZOOM*0.1, mainSquare*cordZOOM*0.1))
i = 100
scaleFontSize = 11*cordZOOM
while i < cLength:
yCoord = mPlotHeight - mPlotHeight*i/cLength
l = svg.line(0,yCoord ,-5*cordZOOM, yCoord)
g.addElement(l)
t = svg.text(-40*cordZOOM, yCoord +5*cordZOOM, "%d"% i, 100, "verdana") # coordinate tag Y
g.addElement(t)
xCoord = mPlotWidth*i/cLength
l = svg.line(xCoord, mPlotHeight, xCoord, mPlotHeight+5*cordZOOM)
g.addElement(l)
if i%200 == 0:
t = svg.text(xCoord, mPlotHeight+10*cordZOOM, "%d"% i, 100, "verdana") # coordinate tag X
g.addElement(t)
i += 100
drawSpaceMain.addElement(g)
#draw Points
finecolors = Plot.colorSpectrumSVG(12)
finecolors.reverse()
g = preColor = ""
for item in data:
_probeset, _chr, _Mb, _marker, _pvalue = item[2:]
try:
_idx = int((-math.log10(_pvalue))*12/6.0) # add module name
_color = finecolors[_idx]
except:
_color = finecolors[-1]
if _color != preColor:
preColor = _color
if g:
drawSpaceMain.addElement(g)
g = svg.group("points", style="stroke:%s;stroke-width:5" % _color,
transform="translate(%d,%d)" % (mainSquare*cordZOOM*0.1, mainSquare*cordZOOM*0.1),
onmouseover="mvMsgBox(evt);", onmouseout="hdMsgBox();", onmousedown="openPage(evt);")
else:
pass
px = mPlotWidth*item[0]/cLength
py = mPlotHeight*(1.0-item[1]/cLength)
l = svg.line("%2.1f" % (px-3*cordZOOM), "%2.1f" % py, "%2.1f" % (px+3*cordZOOM), "%2.1f" % py, ps=_probeset, mk=_marker)
g.addElement(l)
drawSpaceMain.addElement(g)
"""
#draw spectrum
i = 0
j = 0
middleoffsetX = 40
labelFont=pid.Font(ttf="tahoma",size=12,bold=0)
for dcolor in finecolors:
drawSpace.drawLine(xLeftOffset+ plotWidth + middleoffsetX -15 , plotHeight + yTopOffset - i, \
xLeftOffset+ plotWidth + middleoffsetX+15 , plotHeight + yTopOffset - i, color=dcolor)
if i % 50 == 0:
drawSpace.drawLine(xLeftOffset+ plotWidth +middleoffsetX+15 ,plotHeight + yTopOffset - i, \
xLeftOffset+ plotWidth +middleoffsetX+20,plotHeight + yTopOffset - i, color=pid.black)
drawSpace.drawString("%1.1f" % -j , xLeftOffset+ plotWidth +middleoffsetX+25 ,plotHeight + yTopOffset - i+5, font = labelFont)
j += 1
i += 1
drawSpace.drawLine(xLeftOffset+ plotWidth +middleoffsetX+15 ,plotHeight + yTopOffset - i+1, \
xLeftOffset+ plotWidth +middleoffsetX+20,plotHeight + yTopOffset - i+1, color=pid.black)
drawSpace.drawString("%1.1f" % -j , xLeftOffset+ plotWidth +middleoffsetX+25 ,plotHeight + yTopOffset - i+6, font = labelFont)
labelFont=pid.Font(ttf="tahoma",size=14,bold=1)
drawSpace.drawString("Log(pValue)" , xLeftOffset+ plotWidth +middleoffsetX+60 ,plotHeight + yTopOffset - 100, font = labelFont, angle =90)
labelFont=pid.Font(ttf="verdana",size=18,bold=0)
drawSpace.drawString(XLabel, xLeftOffset + (plotWidth -drawSpace.stringWidth(XLabel,font=labelFont))/2.0, plotHeight + yTopOffset +40, color=pid.blue, font=labelFont)
drawSpace.drawString(YLabel,xLeftOffset-60, plotHeight + yTopOffset-(plotHeight -drawSpace.stringWidth(YLabel,font=labelFont))/2.0, color=pid.blue, font=labelFont, angle =90)
"""
drawSpace.addElement(drawSpaceMain)
g= svg.group(id="dispBox", overflow="visible",
style="fill:white;stroke:orange;stroke-width:1;opacity:0.85;",
transform="translate(%d,650)" % (cWidth-40-300), visibility="hidden")
g.addElement(svg.rect(-80, -190, 300, 150, rx=10, ry=10))
g.addElement(svg.line(21, -40, 58, -40, style="stroke:white;"))
g.addElement(svg.polyline([[20, -40], [0, 0], [60, -40]]))
g.addElement(svg.text(-60, -160, "ProbeSet ", style="&colorText; &allText; &subtitleText; &strokeText;", id="_probeset"))
g.addElement(svg.text(-60, -125, "Marker ", style="&colorText; &allText; &subtitleText; &strokeText;", id="_marker"))
drawSpace.addElement(g)
canvasSVG.setSVG(drawSpace) #set the svg of the drawing to the svg
return canvasSVG
def drawGraph(self, canvas, data, cLength = 2500, offset= (80, 160, 60, 60), XLabel="QTL location (GMb)", YLabel="Gene location (GMb)"):
xLeftOffset, xRightOffset, yTopOffset, yBottomOffset = offset
plotWidth = canvas.size[0] - xLeftOffset - xRightOffset
plotHeight = canvas.size[1] - yTopOffset - yBottomOffset
#draw Frame
canvas.drawRect(plotWidth+xLeftOffset, plotHeight + yTopOffset, xLeftOffset, yTopOffset)
#draw Scale
i = 100
scaleFont=pid.Font(ttf="cour",size=11,bold=1)
while i < cLength:
yCoord = plotHeight + yTopOffset - plotHeight*i/cLength
canvas.drawLine(xLeftOffset,yCoord ,xLeftOffset-5, yCoord)
canvas.drawString("%d"% i, xLeftOffset -40, yCoord +5,font=scaleFont)
xCoord = xLeftOffset + plotWidth*i/cLength
canvas.drawLine(xCoord, plotHeight + yTopOffset ,xCoord, plotHeight + yTopOffset+5)
canvas.drawString("%d"% i, xCoord -10, plotHeight + yTopOffset+15,font=scaleFont)
i += 100
#draw Points
finecolors = Plot.colorSpectrum(300)
finecolors.reverse()
for item in data:
_pvalue = item[-1]
try:
_idx = int((-math.log10(_pvalue))*300/6.0) # XZ, 09/11/2008: add module name
_color = finecolors[_idx]
except:
_color = finecolors[-1]
canvas.drawCross(xLeftOffset + plotWidth*item[0]/cLength, plotHeight + yTopOffset - plotHeight*item[1]/cLength, color=_color,size=3)
#draw grid / always draw grid
if 1: #self.grid == "on":
for key in self.mouseChrLengthDict.keys():
length = self.mouseChrLengthDict[key]
if length != 0:
yCoord = plotHeight + yTopOffset - plotHeight*length/cLength
canvas.drawLine(xLeftOffset,yCoord ,xLeftOffset+plotWidth, yCoord, color=pid.lightgrey)
xCoord = xLeftOffset + plotWidth*length/cLength
canvas.drawLine(xCoord, plotHeight + yTopOffset ,xCoord, yTopOffset, color=pid.lightgrey)
#draw spectrum
i = 0
j = 0
middleoffsetX = 40
labelFont=pid.Font(ttf="tahoma",size=12,bold=0)
for dcolor in finecolors:
canvas.drawLine(xLeftOffset+ plotWidth + middleoffsetX -15 , plotHeight + yTopOffset - i, \
xLeftOffset+ plotWidth + middleoffsetX+15 , plotHeight + yTopOffset - i, color=dcolor)
if i % 50 == 0:
canvas.drawLine(xLeftOffset+ plotWidth +middleoffsetX+15 ,plotHeight + yTopOffset - i, \
xLeftOffset+ plotWidth +middleoffsetX+20,plotHeight + yTopOffset - i, color=pid.black)
canvas.drawString("%1.1f" % -j , xLeftOffset+ plotWidth +middleoffsetX+25 ,plotHeight + yTopOffset - i+5, font = labelFont)
j += 1
i += 1
canvas.drawLine(xLeftOffset+ plotWidth +middleoffsetX+15 ,plotHeight + yTopOffset - i+1, \
xLeftOffset+ plotWidth +middleoffsetX+20,plotHeight + yTopOffset - i+1, color=pid.black)
canvas.drawString("%1.1f" % -j , xLeftOffset+ plotWidth +middleoffsetX+25 ,plotHeight + yTopOffset - i+6, font = labelFont)
labelFont=pid.Font(ttf="tahoma",size=14,bold=1)
canvas.drawString("Log(pValue)" , xLeftOffset+ plotWidth +middleoffsetX+60 ,plotHeight + yTopOffset - 100, font = labelFont, angle =90)
labelFont=pid.Font(ttf="verdana",size=18,bold=0)
canvas.drawString(XLabel, xLeftOffset + (plotWidth -canvas.stringWidth(XLabel,font=labelFont))/2.0, plotHeight + yTopOffset +40, color=pid.blue, font=labelFont)
canvas.drawString(YLabel,xLeftOffset-60, plotHeight + yTopOffset-(plotHeight -canvas.stringWidth(YLabel,font=labelFont))/2.0, color=pid.blue, font=labelFont, angle =90)
return
def readMouseGenome(self, RISet):
ldict = {}
lengths = []
sum = 0
#####################################
# Retrieve Chr Length Information
#####################################
self.cursor.execute("""
Select
Chr_Length.Name, Length from Chr_Length, InbredSet
where
Chr_Length.SpeciesId = InbredSet.SpeciesId AND
InbredSet.Name = '%s'
Order by
OrderId
""" % RISet)
lengths = self.cursor.fetchall()
ldict[lengths[0][0]] = 0
prev = lengths[0][1]/1000000.0
sum += lengths[0][1]/1000000.0
for item in lengths[1:]:
ldict[item[0]] = prev
prev += item[1]/1000000.0
sum += item[1]/1000000.0
return ldict, sum
def cmppValue(self, A,B):
if A[-1] < B[-1]:
return -1
elif A[-1] == B[-1]:
return 0
else:
return 1