# 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 NL 2010/02/11
#!/usr/bin/python
# networkGraph.py
# Author: Stephen Pitts
# 6/2/2004
#
# a script to take a matrix of data from a WebQTL job and generate a
# graph using the neato package from GraphViz
#
# See graphviz for documentation of the parameters
#
#from mod_python import apache, util, Cookie
#import cgi
import tempfile
import os
import time
import sys
import cgitb
import string
from htmlgen import HTMLgen2 as HT
from base.templatePage import templatePage
import networkGraphUtils
from base import webqtlConfig
from utility import webqtlUtil
from base.webqtlTrait import webqtlTrait
import compareCorrelates.trait as smpTrait
from GraphPage import GraphPage
from networkGraphPageBody import networkGraphPageBody
from correlationMatrix.tissueCorrelationMatrix import tissueCorrelationMatrix
cgitb.enable()
class networkGraphPage(templatePage):
def __init__(self,fd,InputData=None):
templatePage.__init__(self, fd)
if not self.openMysql():
return
if not fd.genotype:
fd.readGenotype()
self.searchResult = fd.formdata.getvalue('searchResult')
self.tissueProbeSetFeezeId = "1" #XZ, Jan 03, 2010: currently, this dataset is "UTHSC Illumina V6.2 RankInv B6 D2 average CNS GI average (May 08)"
TissueCorrMatrixObject = tissueCorrelationMatrix(tissueProbeSetFreezeId=self.tissueProbeSetFeezeId)
if type("1") == type(self.searchResult):
self.searchResult = string.split(self.searchResult, '\t')
if (not self.searchResult or (len(self.searchResult) < 2)):
heading = 'Network Graph'
detail = ['You need to select at least two traits in order to generate Network Graph.']
self.error(heading=heading,detail=detail)
print 'Content-type: text/html\n'
self.write()
return
if self.searchResult:
if len(self.searchResult) > webqtlConfig.MAXCORR:
heading = 'Network Graph'
detail = ['In order to display Network Graph properly, Do not select more than %d traits for Network Graph.' % webqtlConfig.MAXCORR]
self.error(heading=heading,detail=detail)
print 'Content-type: text/html\n'
self.write()
return
else:
pass
traitList = []
traitDataList = []
for item in self.searchResult:
thisTrait = webqtlTrait(fullname=item, cursor=self.cursor)
thisTrait.retrieveInfo()
thisTrait.retrieveData(fd.strainlist)
traitList.append(thisTrait)
traitDataList.append(thisTrait.exportData(fd.strainlist))
else:
heading = 'Network Graph'
detail = [HT.Font('Error : ',color='red'),HT.Font('Error occurs while retrieving data from database.',color='black')]
self.error(heading=heading,detail=detail)
print 'Content-type: text/html\n'
self.write()
return
NNN = len(traitList)
if NNN < 2:
templatePage.__init__(self, fd)
heading = 'Network Graph'
detail = ['You need to select at least two traits in order to generate a Network Graph']
print 'Content-type: text/html\n'
self.write()
return
else:
pearsonArray = [([0] * (NNN))[:] for i in range(NNN)]
spearmanArray = [([0] * (NNN))[:] for i in range(NNN)]
GeneIdArray = []
GeneSymbolList = [] #XZ, Jan 03, 2011: holds gene symbols for calculating tissue correlation
traitInfoArray = []
i = 0
nnCorr = len(fd.strainlist)
for i, thisTrait in enumerate(traitList):
names1 = [thisTrait.db.name, thisTrait.name, thisTrait.cellid]
for j, thisTrait2 in enumerate(traitList):
names2 = [thisTrait2.db.name, thisTrait2.name, thisTrait2.cellid]
if j < i:
corr,nOverlap = webqtlUtil.calCorrelation(traitDataList[i],traitDataList[j],nnCorr)
pearsonArray[i][j] = corr
pearsonArray[j][i] = corr
elif j == i:
pearsonArray[i][j] = 1.0
spearmanArray[i][j] = 1.0
else:
corr,nOverlap = webqtlUtil.calCorrelationRank(traitDataList[i],traitDataList[j],nnCorr)
spearmanArray[i][j] = corr
spearmanArray[j][i] = corr
GeneId1 = None
tmpSymbol = None
if thisTrait.db.type == 'ProbeSet':
try:
GeneId1 = int(thisTrait.geneid)
except:
GeneId1 = 0
if thisTrait.symbol:
tmpSymbol = thisTrait.symbol.lower()
GeneIdArray.append(GeneId1)
GeneSymbolList.append(tmpSymbol)
_traits = []
_matrix = []
for i in range(NNN):
turl = webqtlConfig.CGIDIR + webqtlConfig.SCRIPTFILE + '?FormID=showDatabase&database=%s&ProbeSetID=%s' % (traitList[i].db.name, traitList[i].name)
if traitList[i].cellid:
turl += "&CellID=%s" % traitList[i].cellid
if traitList[i].db.type == 'ProbeSet':
if traitList[i].symbol:
_symbol = traitList[i].symbol
else:
_symbol = 'unknown'
elif traitList[i].db.type == 'Publish':
_symbol = traitList[i].name
if traitList[i].confidential:
if webqtlUtil.hasAccessToConfidentialPhenotypeTrait(privilege=self.privilege, userName=self.userName, authorized_users=traitList[i].authorized_users):
if traitList[i].post_publication_abbreviation:
_symbol = traitList[i].post_publication_abbreviation
else:
if traitList[i].pre_publication_abbreviation:
_symbol = traitList[i].pre_publication_abbreviation
else:
if traitList[i].post_publication_abbreviation:
_symbol = traitList[i].post_publication_abbreviation
#XZ, 05/26/2009: Xiaodong add code for Geno data
elif traitList[i].db.type == 'Geno':
_symbol = traitList[i].name
else:
_symbol = traitList[i].description
#####if this trait entered by user
if _symbol.__contains__('entered'):
_symbol = _symbol[:_symbol.index('entered')]
#####if this trait generaged by genenetwork
elif _symbol.__contains__('generated'):
_symbol = _symbol[_symbol.rindex(':')+1:]
newTrait = smpTrait.Trait(name=str(traitList[i]), href=turl, symbol=_symbol)
newTrait.color = "black"
_traits.append(newTrait)
for j in range(i+1, NNN):
dataPoint = smpTrait.RawPoint(i, j)
dataPoint.spearman = spearmanArray[i][j]
dataPoint.pearson = pearsonArray[i][j]
#XZ: get literature correlation info.
if GeneIdArray[i] and GeneIdArray[j]:
if GeneIdArray[i] == GeneIdArray[j]:
dataPoint.literature = 1
else:
self.cursor.execute("SELECT Value from LCorrRamin3 WHERE (GeneId1 = %d and GeneId2 = %d) or (GeneId1 = %d and GeneId2 = %d)" % (GeneIdArray[i], GeneIdArray[j], GeneIdArray[j], GeneIdArray[i]))
try:
dataPoint.literature = self.cursor.fetchone()[0]
except:
dataPoint.literature = 0
else:
dataPoint.literature = 0
#XZ: get tissue correlation info
if GeneSymbolList[i] and GeneSymbolList[j]:
dataPoint.tissue = 0
geneSymbolPair = []
geneSymbolPair.append(GeneSymbolList[i])
geneSymbolPair.append(GeneSymbolList[j])
corrArray,pvArray = TissueCorrMatrixObject.getCorrPvArrayForGeneSymbolPair(geneNameLst=geneSymbolPair)
if corrArray[1][0]:
dataPoint.tissue = corrArray[1][0]
else:
dataPoint.tissue = 0
_matrix.append(dataPoint)
OrigDir = os.getcwd()
sessionfile = fd.formdata.getvalue('session')
inputFilename = fd.formdata.getvalue('inputFile')
#If there is no sessionfile generate one and dump all matrix/trait values
if not sessionfile:
filename = webqtlUtil.generate_session()
webqtlUtil.dump_session([_matrix, _traits], os.path.join(webqtlConfig.TMPDIR, filename + '.session'))
sessionfile = filename
startTime = time.time()
#Build parameter dictionary used by networkGraphPage class using buildParamDict function
params = networkGraphUtils.buildParamDict(fd, sessionfile)
nodes = len(_traits)
rawEdges = len(_matrix)
if params["tune"] == "yes":
params = networkGraphUtils.tuneParamDict(params, nodes, rawEdges)
matrix = networkGraphUtils.filterDataMatrix(_matrix, params)
optimalNode = networkGraphUtils.optimalRadialNode(matrix)
if not inputFilename:
inputFilename = tempfile.mktemp()
inputFilename = webqtlConfig.IMGDIR + inputFilename.split("/")[2]
#writes out 4 graph files for exporting
graphFile = "/image/" + networkGraphUtils.writeGraphFile(matrix, _traits, inputFilename, params)
networkGraphUtils.processDataMatrix(matrix, params)
edges = 0
for edge in matrix:
if edge.value != 0:
edges +=1
for trait in _traits:
trait.name = networkGraphUtils.fixLabel(trait.name)
RootDir = webqtlConfig.IMGDIR
RootDirURL = "/image/"
#This code writes the datafile that the graphviz function runNeato uses to generate the
#"digraph" file that defines the graphs parameters
datafile = networkGraphUtils.writeNeatoFile(matrix=matrix, traits=_traits, filename=inputFilename, GeneIdArray=GeneIdArray, p=params)
#Generate graph in various file types
layoutfile = networkGraphUtils.runNeato(datafile, "dot", "dot", params["gType"]) # XZ, 09/11/2008: add module name
# ZS 03/04/2010 This second output file (layoutfile_pdf) is rotated by 90 degrees to prevent an issue with pdf output being cut off at the edges
layoutfile_pdf = networkGraphUtils.runNeato(datafile + "_pdf", "dot", "dot", params["gType"]) # ZS 03/04/2010
pngfile = networkGraphUtils.runNeato(layoutfile, "png", "png", params["gType"])
mapfile = networkGraphUtils.runNeato(layoutfile, "cmapx", "cmapx", params["gType"])# XZ, 09/11/2008: add module name
giffile = networkGraphUtils.runNeato(layoutfile, "gif", "gif", params["gType"])# XZ, 09/11/2008:add module name
psfile = networkGraphUtils.runNeato(layoutfile_pdf, "ps", "ps", params["gType"])# XZ, 09/11/2008: add module name
pdffile = networkGraphUtils.runPsToPdf(psfile, params["width"], params["height"])# XZ, 09/11/2008: add module name
#This generates text files in XGGML (standardized graphing language) and plain text
#so the user can create his/her own graphs in a program like Cytoscape
htmlfile1 = datafile + ".html"
htmlfile2 = datafile + ".graph.html"
os.chdir(OrigDir)
#This generates the graph in various image formats
giffile = RootDirURL + giffile
pngfile = RootDirURL + pngfile
pdffile = RootDirURL + pdffile
endTime = time.time()
totalTime = endTime - startTime
os.chdir(RootDir)
page2 = GraphPage(giffile, mapfile)
page2.writeToFile(htmlfile2)
#This generates the HTML for the body of the Network Graph page
page1 = networkGraphPageBody(fd, matrix, _traits, htmlfile2, giffile, pdffile, nodes, edges, rawEdges, totalTime, params, page2.content, graphFile, optimalNode)
#Adds the javascript colorSel to the body to allow line color selection
self.dict["js1"] = '
'
#self.dict["js1"] += ''
#Set body of current templatePage to body of the templatePage networkGraphPage
self.dict['body'] = page1.dict['body']