#!/usr/bin/python2
"""This script use the nearest marker to the transcript as control, increasing permutation rounds according to the p-value"""
########################################################################
# Last Updated Sep 27, 2011 by Xiaodong
# This version fix the bug that incorrectly exclude the first 2 probesetIDs
########################################################################
import string
import sys
import MySQLdb
import getpass
import time
def translateAlias(str):
if str == "B6":
return "C57BL/6J"
elif str == "D2":
return "DBA/2J"
else:
return str
########################################################################
#
# Indicate Data Start Position, ProbeFreezeId, GeneChipId, DataFile
#
########################################################################
dataStart = 1
GeneChipId = int(input("Enter GeneChipId:"))
ProbeSetFreezeId = int(input("Enter ProbeSetFreezeId:"))
input_file_name = input("Enter file name with suffix:")
fp = open("%s" % input_file_name, 'rb')
try:
passwd = getpass.getpass('Please enter mysql password here : ')
con = MySQLdb.Connect(db='db_webqtl', host='localhost',
user='username', passwd=passwd)
db = con.cursor()
print("You have successfully connected to mysql.\n")
except:
print("You entered incorrect password.\n")
sys.exit(0)
time0 = time.time()
########################################################################
#
# Indicate Data Start Position, ProbeFreezeId, GeneChipId, DataFile
#
########################################################################
#GeneChipId = 4
#dataStart = 1
# ProbeSetFreezeId = 359 #JAX Liver 6C Affy M430 2.0 (Jul11) MDP
#fp = open("GSE10493_AllSamples_6C_Z_AvgSE.txt", 'rb')
#########################################################################
#
# Check if each line have same number of members
# generate the gene list of expression data here
#
#########################################################################
print('Checking if each line have same number of members')
GeneList = []
isCont = 1
header = fp.readline()
header = header.strip().split('\t')
header = [item.strip() for item in header]
nfield = len(header)
line = fp.readline()
kj = 0
while line:
line2 = line.strip().split('\t')
line2 = [item.strip() for item in line2]
if len(line2) != nfield:
isCont = 0
print(("Error : " + line))
GeneList.append(line2[0])
line = fp.readline()
kj += 1
if kj % 100000 == 0:
print(('checked ', kj, ' lines'))
GeneList = sorted(map(string.lower, GeneList))
if isCont == 0:
sys.exit(0)
print(('used ', time.time()-time0, ' seconds'))
#########################################################################
#
# Check if each strain exist in database
# generate the string id list of expression data here
#
#########################################################################
print('Checking if each strain exist in database')
isCont = 1
fp.seek(0)
header = fp.readline()
header = header.strip().split('\t')
header = [item.strip() for item in header]
header = list(map(translateAlias, header))
header = header[dataStart:]
Ids = []
for item in header:
try:
db.execute('select Id from Strain where Name = "%s"' % item)
Ids.append(db.fetchall()[0][0])
except:
isCont = 0
print((item, 'does not exist, check the if the strain name is correct'))
if isCont == 0:
sys.exit(0)
print(('used ', time.time()-time0, ' seconds'))
########################################################################
#
# Check if each ProbeSet exist in database
#
########################################################################
print('Check if each ProbeSet exist in database')
##---- find PID is name or target ----##
line = fp.readline()
line = fp.readline()
line2 = line.strip().split('\t')
line2 = [x.strip() for x in line2]
PId = line2[0]
db.execute('select Id from ProbeSet where Name="%s" and ChipId=%d' %
(PId, GeneChipId))
results = db.fetchall()
IdStr = 'TargetId'
if len(results) > 0:
IdStr = 'Name'
##---- get Name/TargetId list from database ----##
db.execute('select distinct(%s) from ProbeSet where ChipId=%d order by %s' % (
IdStr, GeneChipId, IdStr))
results = db.fetchall()
Names = []
for item in results:
Names.append(item[0])
Names = sorted(map(string.lower, Names))
##---- compare genelist with names ----##
x = y = 0
x1 = -1
GeneList2 = []
while x < len(GeneList) and y < len(Names):
if GeneList[x] == Names[y]:
x += 1
y += 1
elif GeneList[x] < Names[y]:
if x != x1:
GeneList2.append(GeneList[x])
x1 = x
x += 1
elif GeneList[x] > Names[y]:
y += 1
if x % 100000 == 0:
print(('check Name, checked %d lines' % x))
while x < len(GeneList):
GeneList2.append(GeneList[x])
x += 1
isCont = 1
ferror = open("ProbeSetError.txt", "wb")
for item in GeneList2:
ferror.write(item + " doesn't exist \n")
isCont = 0
print((item, " doesn't exist"))
if isCont == 0:
sys.exit(0)
print(('used ', time.time()-time0, ' seconds'))
#############################
# Insert new Data into SE
############################
db.execute("""
select ProbeSet.%s, ProbeSetXRef.DataId from ProbeSet, ProbeSetXRef
where ProbeSet.Id=ProbeSetXRef.ProbeSetId and ProbeSetXRef.ProbeSetFreezeId=%d"""
% (IdStr, ProbeSetFreezeId))
results = db.fetchall()
ProbeNameId = {}
for Name, Id in results:
ProbeNameId[Name] = Id
ferror = open("ProbeError.txt", "wb")
DataValues = []
fp.seek(0) # XZ add this line
line = fp.readline() # XZ add this line
line = fp.readline()
kj = 0
while line:
line2 = line.strip().split('\t')
line2 = [x.strip() for x in line2]
CellId = line2[0]
if CellId not in ProbeNameId:
ferror.write(CellId + " doesn't exist\n")
else:
DataId = ProbeNameId[CellId]
datasorig = line2[dataStart:]
i = 0
for item in datasorig:
if item != '':
value = '('+str(DataId)+','+str(Ids[i])+','+str(item)+')'
DataValues.append(value)
i += 1
kj += 1
if kj % 100 == 0:
Dataitems = ','.join(DataValues)
cmd = 'insert ProbeSetSE values %s' % Dataitems
db.execute(cmd)
DataValues = []
line = fp.readline()
print((CellId, " doesn't exist"))
print(('inserted ', kj, ' lines'))
print(('used ', time.time()-time0, ' seconds'))
if len(DataValues) > 0:
DataValues = ','.join(DataValues)
cmd = 'insert ProbeSetSE values %s' % DataValues
db.execute(cmd)
db.close()
con.close()
