def OnStart(): print "Start: Point Multicube" global output, cube_data data_dir = microscope.GetUserDataDirectory() output = microscope.ShowFileSequenceSaveDialog(data_dir) if output != None: print "Saving to directory ", output[0] print "Filename Format ", output[1] else: print "Aborting Timelapse" microscope.AbortTimeLapseVisitPoints() cube_data = microscope.GetCubes()
def OnStart(): print "Start: Region Multicube" global output, cube_data data_dir = microscope.GetUserDataDirectory() output = microscope.ShowSimpleFileSequenceSaveDialog( data_dir ) # This is really geared to regions and does not have the %. options if output != None: print "Saving to directory ", output[0] print "Filename Format ", output[1] else: print "Aborting Timelapse" microscope.AbortTimeLapseVisitPoints() cube_data = microscope.GetCubes()
def OnStart(): global output global cube_data global core core = 1 data_dir = microscope.GetUserDataDirectory() output = microscope.ShowSimpleFileSequenceSaveDialog(data_dir) cube_data = microscope.GetCubes(); if output != None: print "Saving to directory ", output[0] print "Filename Format ", output[1] else: print "Aborting Timelapse" microscope.AbortTimeLapseVisitPoints()
def OnStart(): global cubes print "Stage Position, ", microscope.GetStagePosition() print microscope.GetTimeLapsePoints() try: # Try to autoexpose within the range of 1 and 60 milli seconds # Performing AutoExposure print "Performing autoexposure" microscope.PerformAutoExposure(1, 60) except: print "Could not calculate autoexposure. Is there enough light ?" try: print "Retrieving Cubes" cubes = microscope.GetCubes() except: print "Could not get cubes"