def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(PairedFileWriter, self).execute(vec)
def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(NucSeqSplitter, self).execute(vec)
def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(BinarySeeding, self).execute(vec)
def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(SmallInversions, self).execute(vec)
def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(AlignmentCollector, self).execute(vec)
def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(GetSecondQuery, self).execute(vec)
def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(MappingQuality, self).execute(vec)
def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(NeedlemanWunsch, self).execute(vec)
def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(Harmonization, self).execute(vec)
def execute(self, *args): vec = libMA.ContainerVector() for arg in args: vec.append(arg) return super(StripOfConsideration, self).execute(vec)