def read_chunk(self): ''' read a chunk of data ''' # read the chunk triplet_count=counted_file_parser.read_chunk() # if this chunk was aborted, return nothing if counted_file_parser.get_aborted(): return 0 # get the step and loop step=counted_file_parser.get_scan_step() loop=counted_file_parser.get_scan_loop() self.max_step=max(step+1, self.max_step) self.max_loop=max(loop+1, self.max_loop) self.all_triplets+=triplet_count self.progress=self.all_triplets*3*4/float(self.filesize) # write down the count rates for pattern_index, pattern in enumerate(self.patterns): self.counts[pattern_index, step, loop]=self.get_count_rate(pattern) # write down the positions for motor_index in range(self.scan_motors_count): position=counted_file_parser.get_motor_controller_position(motor_index) self.positions[motor_index, step, loop]=position return triplet_count
def read_chunk(self): ''' read a chunk of data ''' # read the chunk triplet_count = counted_file_parser.read_chunk() # if this chunk was aborted, return nothing if counted_file_parser.get_aborted(): return 0 # get the step and loop step = counted_file_parser.get_scan_step() loop = counted_file_parser.get_scan_loop() self.max_step = max(step + 1, self.max_step) self.max_loop = max(loop + 1, self.max_loop) self.all_triplets += triplet_count self.progress = self.all_triplets * 3 * 4 / float(self.filesize) # write down the count rates for pattern_index, pattern in enumerate(self.patterns): self.counts[pattern_index, step, loop] = self.get_count_rate(pattern) # write down the positions for motor_index in range(self.scan_motors_count): position = counted_file_parser.get_motor_controller_position( motor_index) self.positions[motor_index, step, loop] = position return triplet_count
def read_chunk(): return _counted_file_parser.read_chunk()