Mercurial > repos > vandelj > giant_hierarchical_clustering
view src/LIMMA_options.py @ 4:d75a74a93587 draft default tip
"planemo upload for repository https://github.com/juliechevalier/GIANT/tree/master commit 89b7d0e8812f53222691cffe29bd48be6519829d"
author | vandelj |
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date | Fri, 25 Sep 2020 08:52:29 +0000 |
parents | 14045c80a222 |
children |
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import re def get_column_names( file_path, toNotConsider=None, toNotConsiderBis=None): options=[] inputfile = open(file_path) firstLine = next(inputfile).strip().split("\t") for i, field_component in enumerate( firstLine ): if i!=0 and field_component!=toNotConsider and field_component!=toNotConsiderBis:#to squeeze the first column options.append( ( field_component, field_component, False ) ) inputfile.close() return options def get_row_names( file_path, factorName ): inputfile = open(file_path) firstLine = next(inputfile).strip().split("\t") iColumn=-1 for i, field_component in enumerate( firstLine ): if field_component==factorName:#to test iColumn=i options=[] if iColumn!=-1: for nextLine in inputfile: nextLine=nextLine.strip().split("\t") if len(nextLine)>1: if (nextLine[iColumn], nextLine[iColumn], False) not in options: options.append( (nextLine[iColumn], nextLine[iColumn], False) ) inputfile.close() return options def get_row_names_interaction( file_path, factorNameA, factorNameB ): inputfile = open(file_path) firstLine = next(inputfile).strip().split("\t") iColumnA=-1 iColumnB=-1 for i, field_component in enumerate( firstLine ): if field_component==factorNameA:#to test iColumnA=i if field_component==factorNameB:#to test iColumnB=i possibleValuesA=[] possibleValuesB=[] if iColumnA!=-1 and iColumnB!=-1: for nextLine in inputfile: nextLine=nextLine.strip().split("\t") if len(nextLine)>1: if nextLine[iColumnA] not in possibleValuesA: possibleValuesA.append(nextLine[iColumnA]) if nextLine[iColumnB] not in possibleValuesB: possibleValuesB.append(nextLine[iColumnB]) inputfile.close() options=[] if len(possibleValuesA)>=1 and len(possibleValuesB)>=1 and possibleValuesA[0]!="None" and possibleValuesB[0]!="None": for counterA in range(len(possibleValuesA)): for counterB in range(len(possibleValuesB)): options.append( (possibleValuesA[counterA]+"*"+possibleValuesB[counterB], possibleValuesA[counterA]+"*"+possibleValuesB[counterB], False) ) return options def get_comparisonsA( factorA, valuesA ): options=[] formatValuesA=re.sub("(^\[u')|('\]$)","", str(valuesA)) possibleValues=formatValuesA.split("', u'") if len(possibleValues)>=2: for counter in range(len(possibleValues)-1): for innerCounter in range(counter+1,len(possibleValues)): options.append( (possibleValues[counter]+" - "+possibleValues[innerCounter], possibleValues[counter]+" - "+possibleValues[innerCounter], False) ) options.append( (possibleValues[innerCounter]+" - "+possibleValues[counter], possibleValues[innerCounter]+" - "+possibleValues[counter], False) ) return options def get_comparisonsAB(factorA, valuesA, factorB, valuesB, interaction): options=[] formatValuesA=re.sub("(^\[u')|('\]$)","", str(valuesA)) possibleValuesA=formatValuesA.split("', u'") formatValuesB=re.sub("(^\[u')|('\]$)","", str(valuesB)) possibleValuesB=formatValuesB.split("', u'") if str(interaction)=="False": if len(possibleValuesA)>=2: for counter in range(len(possibleValuesA)-1): for innerCounter in range(counter+1,len(possibleValuesA)): options.append( (possibleValuesA[counter]+" - "+possibleValuesA[innerCounter], possibleValuesA[counter]+" - "+possibleValuesA[innerCounter], False) ) options.append( (possibleValuesA[innerCounter]+" - "+possibleValuesA[counter], possibleValuesA[innerCounter]+" - "+possibleValuesA[counter], False) ) if len(possibleValuesB)>=2: for counter in range(len(possibleValuesB)-1): for innerCounter in range(counter+1,len(possibleValuesB)): options.append( (possibleValuesB[counter]+" - "+possibleValuesB[innerCounter], possibleValuesB[counter]+" - "+possibleValuesB[innerCounter], False) ) options.append( (possibleValuesB[innerCounter]+" - "+possibleValuesB[counter], possibleValuesB[innerCounter]+" - "+possibleValuesB[counter], False) ) else: if len(possibleValuesA)>=1 and len(possibleValuesB)>=1 and possibleValuesA[0]!="None" and possibleValuesB[0]!="None": for counterA in range(len(possibleValuesA)): for innerCounterA in range(len(possibleValuesA)): for counterB in range(len(possibleValuesB)): for innerCounterB in range(len(possibleValuesB)): if not(counterA==innerCounterA and counterB==innerCounterB): options.append( ("("+possibleValuesA[counterA]+" * "+possibleValuesB[counterB]+") - ("+possibleValuesA[innerCounterA]+" * "+possibleValuesB[innerCounterB]+")","("+possibleValuesA[counterA]+" * "+possibleValuesB[counterB]+") - ("+possibleValuesA[innerCounterA]+" * "+possibleValuesB[innerCounterB]+")", False) ) return options def get_row_names_allInteractions( file_path, factorSelected): formatFactors=re.sub("(^\[u')|('\]$)","", str(factorSelected)) factorsList=formatFactors.split("', u'") iColumn=[None] * len(factorsList) valuesList=[None] * len(factorsList) inputfile = open(file_path) firstLine = next(inputfile).strip().split("\t") for iField, fieldComponent in enumerate( firstLine ): for iFactor, factorComponent in enumerate(factorsList): if fieldComponent==factorComponent: iColumn[iFactor]=iField valuesList[iFactor]=[] for nextLine in inputfile: nextLine=nextLine.strip().split("\t") if len(nextLine)>1: for iFactor, factorComponent in enumerate(factorsList): if nextLine[iColumn[iFactor]] not in valuesList[iFactor]: valuesList[iFactor].append(nextLine[iColumn[iFactor]]) inputfile.close() allCombinations=[] for iFactor, factorComponent in enumerate(factorsList): if iFactor==0: allCombinations=valuesList[iFactor] else: currentCombinations=allCombinations allCombinations=[] for iValue, valueComponent in enumerate(valuesList[iFactor]): for iCombination, combination in enumerate(currentCombinations): allCombinations.append(combination+"*"+valueComponent) options=[] for iCombination, combination in enumerate(allCombinations): options.append((combination,combination,False)) return options def get_allrow_names( file_path, factorSelected ): formatFactors=re.sub("(^\[u')|('\]$)","", str(factorSelected)) factorsList=formatFactors.split("', u'") iColumn=[None] * len(factorsList) valuesList=[None] * len(factorsList) inputfile = open(file_path) firstLine = next(inputfile).strip().split("\t") for iField, fieldComponent in enumerate( firstLine ): for iFactor, factorComponent in enumerate(factorsList): if fieldComponent==factorComponent: iColumn[iFactor]=iField valuesList[iFactor]=[] for nextLine in inputfile: nextLine=nextLine.strip().split("\t") if len(nextLine)>1: for iFactor, factorComponent in enumerate(factorsList): if nextLine[iColumn[iFactor]] not in valuesList[iFactor]: valuesList[iFactor].append(nextLine[iColumn[iFactor]]) inputfile.close() allValues=[] for iFactor, factorComponent in enumerate(factorsList): for iValue, valueComponent in enumerate(valuesList[iFactor]): allValues.append(factorComponent+":"+valueComponent) options=[] for iValue, valueComponent in enumerate(allValues): options.append((valueComponent,valueComponent,False)) return options def replaceNamesInFiles(expressionFile_name,conditionFile_name,outputExpressionFile,outputConditionFile,ouputDictionnary): dico={} forbidenCharacters={"*",":",",","|"} ##start with expression file, read only the first line inputfile = open(expressionFile_name) outputfile = open(outputExpressionFile, 'w') firstLine = next(inputfile).rstrip().split("\t") iCondition=1 newFirstLine="" for i, field_component in enumerate( firstLine ): if (i>0): #conditions names should not be redundant with other conditions if(field_component not in dico): dico[field_component]="Condition"+str(iCondition) newFirstLine+="\t"+"Condition"+str(iCondition) iCondition+=1 else: raise NameError('condition name allready exists!') else: newFirstLine+=field_component outputfile.write(newFirstLine+"\n") for line in inputfile: outputfile.write(line) outputfile.close() inputfile.close() #then parse condition file, read all lines in this case inputfile = open(conditionFile_name) outputfile = open(outputConditionFile, 'w') firstLine=1 iFactor=1 iValue=1 for line in inputfile: currentLine = line.rstrip().split("\t") newCurrentLine="" for i, field_component in enumerate( currentLine ): #special treatment for the first line if (firstLine==1): if (i==0): newCurrentLine=field_component else: #factor names should not be redundant with other factors or conditions if(field_component not in dico): dico[field_component]="Factor"+str(iFactor) newCurrentLine+="\t"+"Factor"+str(iFactor) iFactor+=1 else: raise NameError('factor name allready exists!') else: if (i==0): #check if condition name allready exist and used it if it is, or create a new one if not if(field_component not in dico): dico[field_component]="Condition"+str(iCondition) newCurrentLine="Condition"+str(iCondition) iCondition+=1 else: newCurrentLine=dico[field_component] else: if(field_component not in dico): dico[field_component]="Value"+str(iValue) newCurrentLine+="\tValue"+str(iValue) iValue+=1 else: newCurrentLine+="\t"+dico[field_component] outputfile.write(newCurrentLine+"\n") firstLine=0 outputfile.close() inputfile.close() ##check if any entries in dictionnary contains forbiden character for key, value in dico.items(): for specialCharacter in forbidenCharacters: if value.startswith("Condition")==False and key.find(specialCharacter)!=-1: return 1 ##then write dictionnary in a additional file outputfile = open(ouputDictionnary, 'w') for key, value in dico.items(): outputfile.write(key+"\t"+value+"\n") outputfile.close() return 0 def replaceNamesBlockInFiles(expressionFile_name,conditionFile_name,blockingFile_name,outputExpressionFile,outputConditionFile,outputBlockingFile,ouputDictionnary): dico={} forbidenCharacters={"*",":",",","|"} ##start with expression file, read only the first line inputfile = open(expressionFile_name) outputfile = open(outputExpressionFile, 'w') firstLine = next(inputfile).rstrip().split("\t") iCondition=1 newFirstLine="" for i, field_component in enumerate( firstLine ): if (i>0): #conditions names should not be redundant with other conditions if(field_component not in dico): dico[field_component]="Condition"+str(iCondition) newFirstLine+="\t"+"Condition"+str(iCondition) iCondition+=1 else: raise NameError('condition name allready exists!') else: newFirstLine+=field_component outputfile.write(newFirstLine+"\n") for line in inputfile: outputfile.write(line) outputfile.close() inputfile.close() #then parse condition file, read all lines in this case iFactor=1 iValue=1 for fileNum in range(2): if fileNum==0: inputfile = open(conditionFile_name) outputfile = open(outputConditionFile, 'w') else: inputfile = open(blockingFile_name) outputfile = open(outputBlockingFile, 'w') firstLine=1 for line in inputfile: currentLine = line.rstrip().split("\t") newCurrentLine="" for i, field_component in enumerate( currentLine ): #special treatment for the first line if (firstLine==1): if (i==0): newCurrentLine=field_component else: #factor names should not be redundant with other factors or conditions if(field_component not in dico): dico[field_component]="Factor"+str(iFactor) newCurrentLine+="\t"+"Factor"+str(iFactor) iFactor+=1 else: raise NameError('factor name allready exists!') else: if (i==0): #check if condition name allready exist and used it if it is, or create a new one if not if(field_component not in dico): dico[field_component]="Condition"+str(iCondition) newCurrentLine="Condition"+str(iCondition) iCondition+=1 else: newCurrentLine=dico[field_component] else: if(field_component not in dico): dico[field_component]="Value"+str(iValue) newCurrentLine+="\tValue"+str(iValue) iValue+=1 else: newCurrentLine+="\t"+dico[field_component] outputfile.write(newCurrentLine+"\n") firstLine=0 outputfile.close() inputfile.close() ##check if any entries in dictionnary contains forbiden character for key, value in dico.items(): for specialCharacter in forbidenCharacters: if value.startswith("Condition")==False and key.find(specialCharacter)!=-1: return 1 ##then write dictionnary in a additional file outputfile = open(ouputDictionnary, 'w') for key, value in dico.items(): outputfile.write(key+"\t"+value+"\n") outputfile.close() return 0