def RunAlphaGammaTest(chr, organism):
"""
Runs all Alpha, Gamma test calculations.
chr: Current chromosome number.
organism: Organism's name.
"""
print ("ALPHA GAMMA")
# to find C alpha, gamma and P alpha, gamma
seqNames = printAndParseFiles.findSeqNames("geneLocations" + organism + "\GeneLocations%d.txt" % (chr))
seqCagDictAsym = FindCandP.combineSeqMats("SubMatinGenes" + organism[0].upper() + "\SubMatinGenes%d.txt" % (chr), seqNames)
seqCagDictSym = copy.deepcopy(seqCagDictAsym)
printAndParseFiles.printDictionaryListToFile(seqCagDictAsym, "Calculations_" + organism + "\CSeqFamilyMats\CSeqFamilyMats%d.txt" % (chr))
seqPagDictAsym = FindCandP.findPalphaGammaAsymmetric(seqCagDictAsym)
seqPagDictSym = FindCandP.findPalphaGammaSymmetric(seqCagDictSym)
printAndParseFiles.printDictionaryListToFile(seqPagDictAsym, "Calculations_" + organism + "\PSeqFamilyMats\PSeqFamilyMatsAsymmetric%d.txt" % (chr))
printAndParseFiles.printDictionaryListToFile(seqPagDictSym, "Calculations_" + organism + "\PSeqFamilyMats\PSeqFamilyMatsSymmetric%d.txt" % (chr))
# to find R*t alpha, gamma
RagDictAsym = FindR.calculateRag(seqPagDictAsym, str(chr), "Asymmetric", "RAssertionFailuresAsymmetric_" + organism + "/")
RagDictSym = FindR.calculateRag(seqPagDictSym, str(chr), "Symmetric", "RAssertionFailuresSymmetric_" + organism + "/")
for gene, families in RagDictSym.items():
for name, Rmatrix in families.items():
if name not in RagDictAsym[gene]:
print "From Symmetric"
print gene, name
del RagDictSym[gene][name]
for gene, families in RagDictAsym.items():
for name, Rmatrix in families.items():
if name not in RagDictSym[gene]:
print "From Asymmetric"
print gene, name
del RagDictAsym[gene][name]
printAndParseFiles.printDictionaryMatrixToFile(RagDictAsym, "Calculations_" + organism + "\RSeqFamilyMats\RSeqFamilyMatsAsymmetric%d.txt" % (chr))
printAndParseFiles.printDictionaryMatrixToFile(RagDictSym, "Calculations_" + organism + "\RSeqFamilyMats\RSeqFamilyMatsSymmetric%d.txt" % (chr))
# to find Q alpha,gamma and Q gamma
matSize = 4
MtagDictAsym = FindMT.calculateMtalphaGamma(RagDictAsym, matSize)
MtagDictSym = FindMT.calculateMtalphaGamma(RagDictSym, matSize)
printAndParseFiles.printDictionaryofValuesToFile(MtagDictAsym, "Calculations_" + organism + "\MtSeqFamilyMats\MtSeqFamilyMatsAsymmetric%d.txt" % (chr))
printAndParseFiles.printDictionaryofValuesToFile(MtagDictSym, "Calculations_" + organism + "\MtSeqFamilyMats\MtSeqFamilyMatsSymmetric%d.txt" % (chr))
QagDictAsym = FindQ.calculateQag(RagDictAsym, MtagDictAsym, matSize)
QagDictSym = FindQ.calculateQag(RagDictSym, MtagDictSym, matSize)
printAndParseFiles.printDictionaryMatrixToFile(QagDictAsym, "Calculations_" + organism + "\QSeqFamilyMats\QSeqFamilyMatsAsymmetric%d.txt" % (chr))
printAndParseFiles.printDictionaryMatrixToFile(QagDictSym, "Calculations_" + organism + "\QSeqFamilyMats\QSeqFamilyMatsSymmetric%d.txt" % (chr))
QgammaAsym = FindQ.findQgamma(QagDictAsym)
QgammaSym = FindQ.findQgamma(QagDictSym)
printAndParseFiles.printMatrixToFile(QgammaAsym, "Calculations_" + organism + "\Qgamma\QgammaAsymmetric%d.txt" % (chr))
printAndParseFiles.printMatrixToFile(QgammaSym, "Calculations_" + organism + "\Qgamma\QgammaSymmetric%d.txt" % (chr))
print ("DONE WITH CHR %d" % chr)
def RunGammaTest(chr, beginSeqName, globalOrLocalMts, organism):
"""
Runs all Gamma test calculations.
chr: Current chromosome number.
beginSeqName: Beginning of sequence names for query.
globalOrLocalMts: String identifying whether to use global or local Mt values.
organism: Organism's name.
"""
print ("GAMMA")
# to find P gamma
familyListAsym = printAndParseFiles.parsePalphaGamma("Calculations_" + organism + "\RSeqFamilyMats\RSeqFamilyMatsAsymmetric%d.txt" % (chr), beginSeqName)#change this to Rag, should be the final area of filtering
familyListSym = printAndParseFiles.parsePalphaGamma("Calculations_" + organism + "\RSeqFamilyMats\RSeqFamilyMatsSymmetric%d.txt" % (chr), beginSeqName)
QgammaAsym = printAndParseFiles.parseQgammaFile("Calculations_" + organism + "\Qgamma\QgammaAsymmetric%d.txt" % (chr))
QgammaSym = printAndParseFiles.parseQgammaFile("Calculations_" + organism + "\Qgamma\QgammaSymmetric%d.txt" % (chr))
mtDict = {}
if (globalOrLocalMts == "Global"):
mtDict = printAndParseFiles.parseValueFile("Calculations_" + organism + "\MTFamilyVals.txt")
PalphaGammaHatAsym = FindCandP.calculatePalphaGammaHatGlobal(QgammaAsym, familyListAsym, mtDict)
PalphaGammaHatSym = FindCandP.calculatePalphaGammaHatGlobal(QgammaSym, familyListSym, mtDict)
printAndParseFiles.printDictionaryMatrixToFile(PalphaGammaHatAsym, "Calculations_" + organism + "\PalphaGammaHat%s\PalphaGammaHatAsymmetric%d.txt" % (globalOrLocalMts,chr))
printAndParseFiles.printDictionaryMatrixToFile(PalphaGammaHatSym, "Calculations_" + organism + "\PalphaGammaHat%s\PalphaGammaHatSymmetric%d.txt" % (globalOrLocalMts,chr))
CalphaGamma = printAndParseFiles.parseCalphaGammaFile("Calculations_" + organism + "\CSeqFamilyMats\CSeqFamilyMats%d.txt" % (chr), beginSeqName)
# calculate this section's L gamma value
LgammaAsym = FindLg.findLgamma(CalphaGamma, PalphaGammaHatAsym)
LgammaSym = FindLg.findLgamma(CalphaGamma, PalphaGammaHatSym)
printAndParseFiles.printValuesToFile(LgammaAsym, "Calculations_" + organism + "\Lgamma%s\LgammaAsymmetric%d.txt" % (globalOrLocalMts,chr))
printAndParseFiles.printValuesToFile(LgammaSym, "Calculations_" + organism + "\Lgamma%s\LgammaSymmetric%d.txt" % (globalOrLocalMts,chr))
elif (globalOrLocalMts == "Local"):
mtDictAsym = printAndParseFiles.parseMtalphaGammaFile("Calculations_" + organism + "\MtSeqFamilyMats\MtSeqFamilyMatsAsymmetric%d.txt" % chr, beginSeqName) # create dictionary values for asymmetric and symmetric, perform gamma calculations using them
PalphaGammaHatAsym = FindCandP.calculatePalphaGammaHatLocal(QgammaAsym, familyListAsym, mtDictAsym)
mtDictSym = printAndParseFiles.parseMtalphaGammaFile("Calculations_" + organism + "\MtSeqFamilyMats\MtSeqFamilyMatsSymmetric%d.txt" % chr, beginSeqName)
PalphaGammaHatSym = FindCandP.calculatePalphaGammaHatLocal(QgammaSym, familyListSym, mtDictSym)
printAndParseFiles.printDictionaryMatrixToFile(PalphaGammaHatAsym, "Calculations_" + organism + "\PalphaGammaHat%s\PalphaGammaHatAsymmetric%d.txt" % (globalOrLocalMts,chr))
printAndParseFiles.printDictionaryMatrixToFile(PalphaGammaHatSym, "Calculations_" + organism + "\PalphaGammaHat%s\PalphaGammaHatSymmetric%d.txt" % (globalOrLocalMts,chr))
CalphaGamma = printAndParseFiles.parseCalphaGammaFile("Calculations_" + organism + "\CSeqFamilyMats\CSeqFamilyMats%d.txt" % (chr), beginSeqName)
# calculate this section's L gamma value
LgammaAsym = FindLg.findLgamma(CalphaGamma, PalphaGammaHatAsym)
LgammaSym = FindLg.findLgamma(CalphaGamma, PalphaGammaHatSym)
printAndParseFiles.printValuesToFile(LgammaAsym, "Calculations_" + organism + "\Lgamma%s\LgammaAsymmetric%d.txt" % (globalOrLocalMts,chr))
printAndParseFiles.printValuesToFile(LgammaSym, "Calculations_" + organism + "\Lgamma%s\LgammaSymmetric%d.txt" % (globalOrLocalMts,chr))
else:
print "Error with Global or Local choice. Please type 'Global' or 'Local'"
print ("DONE WITH CHR %d" % chr)
