counter.py 3.13 KB
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# -*- coding: utf-8 -*-
#
# This file is part of the bliss project
#
# Copyright (c) 2017 Beamline Control Unit, ESRF
# Distributed under the GNU LGPLv3. See LICENSE for more info.

import numpy
import time
from gevent import event,sleep
from bliss.common.event import dispatcher
from bliss.common.continuous_scan import AcquisitionDevice,AcquisitionChannel

class CounterAcqDevice(AcquisitionDevice):
    def __init__(self,counter,
                 expo_time=None,npoints=1,**keys):
        prepare_once = keys.pop('prepare_once',npoints > 1 and True or False)
        start_once = keys.pop('start_once',npoints > 1 and True or False)
        npoints = max(1,npoints)
        AcquisitionDevice.__init__(self, counter, counter.name, "zerod",
                                   npoints=npoints,
                                   trigger_type=AcquisitionDevice.SOFTWARE,
                                   prepare_once=prepare_once,
                                   start_once=start_once,
                                   **keys)
        self._expo_time = expo_time
        self.channels.append(AcquisitionChannel(counter.name,numpy.double, (1,)))
        self._nb_acq_points = 0
        self._event = event.Event()
        self._stop_flag = False
        self._ready_event = event.Event()
        self._ready_flag = True

    def prepare(self):
        self._nb_acq_points = 0
        self._stop_flag = False
        self._ready_flag = True
        self._event.clear()

    def start(self):
        pass

    def stop(self):
        self._stop_flag = True
        self._trig_time = None
        self._event.set()

    def trigger(self):
        self._trig_time = time.time()
        self._event.set()

    def wait_ready(self):
        """
        will wait until the last triggered point is read
        """
        while not self._ready_flag:
            self._ready_event.wait()
            self._ready_event.clear()

    def reading(self):

        while self._nb_acq_points < self.npoints:
            #trigger wait
            self._event.wait()
            self._event.clear()
            self._ready_flag = False
            trig_time = self._trig_time
            if trig_time is None: continue
            if self._stop_flag: break

            nb_read = 0
            acc_read_time = 0
            acc_value = 0
            stop_time = trig_time + self._expo_time or 0
            #Counter integration loop
            while not self._stop_flag:
                start_read = time.time()
                acc_value += self.device.read()
                end_read = time.time()
                nb_read += 1
                acc_read_time += end_read - start_read

                current_time = time.time()
                if (current_time + (acc_read_time / nb_read)) > stop_time:
                    break
                sleep(0) # Be able to kill the task

            self._ready_flag = True
            self._ready_event.set()
            self._nb_acq_points += 1
            data = numpy.zeros((1,),dtype=numpy.double)
            data[0] = acc_value / nb_read
            dispatcher.send("new_data",self,
                            {"channel_data": {self.name:data}})