コード例 #1
0
    def stim_epochs(self):

        if self._stim_epochs is None:

            behavior_frame_count = self.behavior_data['items']['behavior'][
                'intervalsms'].size + 1
            mapping_frame_count = self.mapping_data['intervalsms'].size + 1
            replay_frame_count = self.replay_data['intervalsms'].size + 1

            start_frames = probeSync.get_frame_offsets(self.sync, [
                behavior_frame_count, mapping_frame_count, replay_frame_count
            ],
                                                       tolerance=0)
            end_frames = [
                start_frames[it] + total - 1 for it, total in enumerate([
                    behavior_frame_count, mapping_frame_count,
                    replay_frame_count
                ])
            ]

            self._stim_epochs = {
                epoch: [start, end]
                for epoch, start, end in zip(['behavior', 'mapping', 'replay'],
                                             start_frames, end_frames)
            }

        return self._stim_epochs
コード例 #2
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    def _load_pkl_data(self):
        if not self.data_stream_status['sync'][0]:
            self._load_sync_data()

        self.behavior_data = pd.read_pickle(self.BEHAVIOR_PKL)
        self.trials = behavior_analysis.get_trials_df(self.behavior_data)

        self.mapping_data = pd.read_pickle(self.MAPPING_PKL)

        ### CHECK FRAME COUNTS ###

        self.behavior_frame_count = self.behavior_data['items']['behavior'][
            'intervalsms'].size + 1
        self.mapping_frame_count = self.mapping_data['intervalsms'].size + 1
        self.replay_frame_count = 0  #self.replay_data['intervalsms'].size + 1

        self.total_pkl_frames = (self.behavior_frame_count +
                                 self.mapping_frame_count +
                                 self.replay_frame_count)

        #        # look for potential frame offsets from aborted stims
        (self.behavior_start_frame,
         self.mapping_start_frame) = probeSync.get_frame_offsets(
             self.syncDataset,
             [self.behavior_frame_count, self.mapping_frame_count])

        self.replay_start_frame = self.total_pkl_frames
        #
        self.behavior_end_frame = self.behavior_start_frame + self.behavior_frame_count - 1

        self.behavior_start_time = self.FRAME_APPEAR_TIMES[
            self.behavior_start_frame]
        self.behavior_end_time = self.FRAME_APPEAR_TIMES[
            self.behavior_end_frame]

        self.data_stream_status['pkl'][0] = True
コード例 #3
0
    mapping_frame_count = mapping_data['intervalsms'].size + 1
    # replay_frame_count = replay_data['intervalsms'].size + 1

    MONITOR_LAG = 0.036
    FRAME_APPEAR_TIMES = vf + MONITOR_LAG

    ### CHECK THAT NO FRAMES WERE DROPPED FROM SYNC ###
    # total_pkl_frames = (behavior_frame_count +
    #                     mapping_frame_count +
    #                     replay_frame_count)

    # print('frames in pkl files: {}'.format(total_pkl_frames))
    # print('frames in sync file: {}'.format(len(vf)))

    #infer start frames for stimuli
    start_frame = probeSync.get_frame_offsets(syncDataset,
                                              [mapping_frame_count])

    if start_frame is not None:
        print('RF mapping started at frame {}, or experiment time {} seconds'.
              format(start_frame[0], start_frame[0] / 60.))

        probe_dict = probeSync.build_unit_table(paths['data_probes'], paths,
                                                syncDataset)
        probe_dict_old_format = {}
        for p in probe_dict['probe'].unique():
            probe_dict_old_format[p] = probe_dict.loc[probe_dict['probe'] == p]

        rf_mat = get_RFs(probe_dict_old_format,
                         mapping_data,
                         start_frame[0],
                         FRAME_APPEAR_TIMES,
コード例 #4
0
def run_qc(exp_id, save_root):

    identifier = exp_id
    if identifier.find('_') >= 0:
        d = data_getters.local_data_getter(base_dir=identifier)
    else:
        d = data_getters.lims_data_getter(exp_id=identifier)

    paths = d.data_dict
    FIG_SAVE_DIR = os.path.join(
        save_root, paths['es_id'] + '_' + paths['external_specimen_name'] +
        '_' + paths['datestring'])
    if not os.path.exists(FIG_SAVE_DIR):
        os.mkdir(FIG_SAVE_DIR)

    figure_prefix = paths['external_specimen_name'] + '_' + paths[
        'datestring'] + '_'

    ### GET FILE PATHS TO SYNC AND PKL FILES ###
    SYNC_FILE = paths['sync_file']
    BEHAVIOR_PKL = paths['behavior_pkl']
    REPLAY_PKL = paths['replay_pkl']
    MAPPING_PKL = paths['mapping_pkl']

    for f, s in zip([SYNC_FILE, BEHAVIOR_PKL, REPLAY_PKL, MAPPING_PKL],
                    ['sync: ', 'behavior: ', 'replay: ', 'mapping: ']):
        print(s + f)

    ### GET MAIN DATA STREAMS ###
    syncDataset = sync_dataset(SYNC_FILE)
    behavior_data = pd.read_pickle(BEHAVIOR_PKL)
    mapping_data = pd.read_pickle(MAPPING_PKL)
    replay_data = pd.read_pickle(REPLAY_PKL)

    ### Behavior Analysis ###
    behavior_plot_dir = os.path.join(FIG_SAVE_DIR, 'behavior')
    trials = behavior_analysis.get_trials_df(behavior_data)
    behavior_analysis.plot_behavior(trials,
                                    behavior_plot_dir,
                                    prefix=figure_prefix)

    trial_types, counts = behavior_analysis.get_trial_counts(trials)
    behavior_analysis.plot_trial_type_pie(counts,
                                          trial_types,
                                          behavior_plot_dir,
                                          prefix=figure_prefix)

    ### CHECK FRAME COUNTS ###
    vr, vf = probeSync.get_sync_line_data(syncDataset, channel=2)

    behavior_frame_count = behavior_data['items']['behavior'][
        'intervalsms'].size + 1
    mapping_frame_count = mapping_data['intervalsms'].size + 1
    replay_frame_count = replay_data['intervalsms'].size + 1

    total_pkl_frames = (behavior_frame_count + mapping_frame_count +
                        replay_frame_count)

    ### CHECK THAT NO FRAMES WERE DROPPED FROM SYNC ###
    print('frames in pkl files: {}'.format(total_pkl_frames))
    print('frames in sync file: {}'.format(len(vf)))

    #assert(total_pkl_frames==len(vf))

    ### CHECK THAT REPLAY AND BEHAVIOR HAVE SAME FRAME COUNT ###
    print('frames in behavior stim: {}'.format(behavior_frame_count))
    print('frames in replay stim: {}'.format(replay_frame_count))

    #assert(behavior_frame_count==replay_frame_count)

    # look for potential frame offsets from aborted stims
    (behavior_start_frame,
     mapping_start_frame, replay_start_frame) = probeSync.get_frame_offsets(
         syncDataset,
         [behavior_frame_count, mapping_frame_count, replay_frame_count])

    behavior_end_frame = behavior_start_frame + behavior_frame_count - 1
    mapping_end_frame = mapping_start_frame + mapping_frame_count - 1
    replay_end_frame = replay_start_frame + replay_frame_count - 1

    MONITOR_LAG = 0.036  #TO DO: don't hardcode this...
    FRAME_APPEAR_TIMES = vf + MONITOR_LAG

    behavior_start_time, mapping_start_time, replay_start_time = [
        FRAME_APPEAR_TIMES[f] for f in
        [behavior_start_frame, mapping_start_frame, replay_start_frame]
    ]
    behavior_end_time, mapping_end_time, replay_end_time = [
        FRAME_APPEAR_TIMES[f]
        for f in [behavior_end_frame, mapping_end_frame, replay_end_frame]
    ]

    ### Plot vsync info ###
    vsync_save_dir = os.path.join(FIG_SAVE_DIR, 'vsyncs')
    analysis.plot_frame_intervals(vf,
                                  behavior_frame_count,
                                  mapping_frame_count,
                                  behavior_start_frame,
                                  mapping_start_frame,
                                  replay_start_frame,
                                  vsync_save_dir,
                                  prefix=figure_prefix)
    analysis.plot_vsync_interval_histogram(vf,
                                           vsync_save_dir,
                                           prefix=figure_prefix)
    analysis.vsync_report(vf,
                          total_pkl_frames,
                          vsync_save_dir,
                          prefix=figure_prefix)

    ### BUILD UNIT TABLE ####
    probe_dict = probeSync.build_unit_table(paths['data_probes'], paths,
                                            syncDataset)

    ### Plot Probe Yield QC ###
    probe_yield_dir = os.path.join(FIG_SAVE_DIR, 'probe_yield')
    probe_dirs = [paths['probe' + pid] for pid in paths['data_probes']]
    analysis.plot_unit_quality_hist(probe_dict,
                                    probe_yield_dir,
                                    prefix=figure_prefix)
    analysis.plot_unit_distribution_along_probe(probe_dict,
                                                probe_yield_dir,
                                                prefix=figure_prefix)
    analysis.plot_all_spike_hist(probe_dict,
                                 probe_yield_dir,
                                 prefix=figure_prefix + 'good')
    analysis.copy_probe_depth_images(paths,
                                     probe_yield_dir,
                                     prefix=figure_prefix)

    ### Unit Metrics ###
    unit_metrics_dir = os.path.join(FIG_SAVE_DIR, 'unit_metrics')
    analysis.plot_unit_metrics(paths, unit_metrics_dir, prefix=figure_prefix)

    ### Probe/Sync alignment
    probeSyncDir = os.path.join(FIG_SAVE_DIR, 'probeSyncAlignment')
    analysis.plot_barcode_interval_hist(probe_dirs,
                                        syncDataset,
                                        probeSyncDir,
                                        prefix=figure_prefix)
    analysis.plot_barcode_intervals(probe_dirs,
                                    syncDataset,
                                    probeSyncDir,
                                    prefix=figure_prefix)
    analysis.probe_sync_report(probe_dirs,
                               syncDataset,
                               probeSyncDir,
                               prefix=figure_prefix)
    analysis.plot_barcode_matches(probe_dirs,
                                  syncDataset,
                                  probeSyncDir,
                                  prefix=figure_prefix)

    ### Plot visual responses
    get_RFs(probe_dict,
            mapping_data,
            mapping_start_frame,
            FRAME_APPEAR_TIMES,
            os.path.join(FIG_SAVE_DIR, 'receptive_fields'),
            prefix=figure_prefix)
    analysis.plot_population_change_response(probe_dict,
                                             behavior_frame_count,
                                             mapping_frame_count,
                                             trials,
                                             FRAME_APPEAR_TIMES,
                                             os.path.join(
                                                 FIG_SAVE_DIR,
                                                 'change_response'),
                                             ctx_units_percentile=66,
                                             prefix=figure_prefix)

    ### Plot running ###
    analysis.plot_running_wheel(behavior_data,
                                mapping_data,
                                replay_data,
                                behavior_plot_dir,
                                prefix=figure_prefix)

    ### LFP ###
    lfp_save_dir = os.path.join(FIG_SAVE_DIR, 'LFP')
    lick_times = analysis.get_rewarded_lick_times(
        probeSync.get_lick_times(syncDataset),
        FRAME_APPEAR_TIMES,
        trials,
        min_inter_lick_time=0.5)
    lfp_dict = probeSync.build_lfp_dict(probe_dirs, syncDataset)
    analysis.plot_lick_triggered_LFP(lfp_dict,
                                     lick_times,
                                     lfp_save_dir,
                                     prefix=figure_prefix,
                                     agarChRange=None,
                                     num_licks=20,
                                     windowBefore=0.5,
                                     windowAfter=1.5,
                                     min_inter_lick_time=0.5,
                                     behavior_duration=3600)

    ### VIDEOS ###
    video_dir = os.path.join(FIG_SAVE_DIR, 'videos')
    analysis.lost_camera_frame_report(paths, video_dir, prefix=figure_prefix)
    analysis.camera_frame_grabs(
        paths,
        syncDataset,
        video_dir,
        [behavior_start_time, mapping_start_time, replay_start_time],
        [behavior_end_time, mapping_end_time, replay_end_time],
        epoch_frame_nums=[2, 2, 2],
        prefix=figure_prefix)
コード例 #5
0
### CHECK THAT NO FRAMES WERE DROPPED FROM SYNC ###
print('frames in pkl files: {}'.format(total_pkl_frames))
print('frames in sync file: {}'.format(len(vf)))

assert (total_pkl_frames == len(vf))

### CHECK THAT REPLAY AND BEHAVIOR HAVE SAME FRAME COUNT ###
print('frames in behavior stim: {}'.format(behavior_frame_count))
print('frames in replay stim: {}'.format(replay_frame_count))

assert (behavior_frame_count == replay_frame_count)

# look for potential frame offsets from aborted stims
(behavior_start_frame,
 mapping_start_frame, replay_start_frame) = probeSync.get_frame_offsets(
     syncDataset,
     [behavior_frame_count, mapping_frame_count, replay_frame_count])

MONITOR_LAG = 0.036  #TO DO: don't hardcode this...
FRAME_APPEAR_TIMES = vf + MONITOR_LAG

analysis.plot_frame_intervals(vf, behavior_frame_count, mapping_frame_count,
                              behavior_start_frame, mapping_start_frame,
                              replay_start_frame, FIG_SAVE_DIR)

### BUILD UNIT TABLE ####
probe_dict = probeSync.build_unit_table(paths['data_probes'], paths,
                                        syncDataset)

analysis.plot_unit_quality_hist(probe_dict, FIG_SAVE_DIR)
analysis.plot_unit_distribution_along_probe(probe_dict, FIG_SAVE_DIR)
コード例 #6
0
    def __init__(self, exp_id, save_root, modules_to_run='all'):
        
        self.modules_to_run = modules_to_run
        
        identifier = exp_id
        if identifier.find('_')>=0:
            d = data_getters.local_data_getter(base_dir=identifier)
        else:
            d = data_getters.lims_data_getter(exp_id=identifier)
        
        self.paths = d.data_dict
        self.FIG_SAVE_DIR = os.path.join(save_root, self.paths['es_id']+'_'+ self.paths['external_specimen_name']+'_'+ self.paths['datestring'])
        if not os.path.exists(self.FIG_SAVE_DIR):
            os.mkdir(self.FIG_SAVE_DIR)
        
        self.figure_prefix = self.paths['external_specimen_name'] + '_' + self.paths['datestring'] + '_'

        ### GET FILE PATHS TO SYNC AND PKL FILES ###
        self.SYNC_FILE = self.paths['sync_file']
        self.BEHAVIOR_PKL = self.paths['behavior_pkl']
        self.REPLAY_PKL = self.paths['replay_pkl']
        self.MAPPING_PKL = self.paths['mapping_pkl']
        self.OPTO_PKL = self.paths['opto_pkl']

        for f,s in zip([self.SYNC_FILE, self.BEHAVIOR_PKL, self.REPLAY_PKL, self.MAPPING_PKL], ['sync: ', 'behavior: ', 'replay: ', 'mapping: ']):
            print(s + f)

        ### GET MAIN DATA STREAMS ###
        self.syncDataset = sync_dataset(self.SYNC_FILE)
        self.behavior_data = pd.read_pickle(self.BEHAVIOR_PKL)
        self.mapping_data = pd.read_pickle(self.MAPPING_PKL)
        self.replay_data = pd.read_pickle(self.REPLAY_PKL)
        self.opto_data = pd.read_pickle(self.OPTO_PKL)
        
        self.trials = behavior_analysis.get_trials_df(self.behavior_data)
    
        ### CHECK FRAME COUNTS ###
        vr, self.vf = probeSync.get_sync_line_data(self.syncDataset, channel=2)
    
        self.behavior_frame_count = self.behavior_data['items']['behavior']['intervalsms'].size + 1
        self.mapping_frame_count = self.mapping_data['intervalsms'].size + 1
        self.replay_frame_count = self.replay_data['intervalsms'].size + 1
        
        self.total_pkl_frames = (self.behavior_frame_count +
                            self.mapping_frame_count +
                            self.replay_frame_count) 
        
        ### CHECK THAT NO FRAMES WERE DROPPED FROM SYNC ###
        print('frames in pkl files: {}'.format(self.total_pkl_frames))
        print('frames in sync file: {}'.format(len(self.vf)))
        
        #assert(total_pkl_frames==len(vf))
        
        ### CHECK THAT REPLAY AND BEHAVIOR HAVE SAME FRAME COUNT ###
        print('frames in behavior stim: {}'.format(self.behavior_frame_count))
        print('frames in replay stim: {}'.format(self.replay_frame_count))
        
        #assert(behavior_frame_count==replay_frame_count)
        
        # look for potential frame offsets from aborted stims
        (self.behavior_start_frame, self.mapping_start_frame, self.replay_start_frame) = probeSync.get_frame_offsets(
                                                                self.syncDataset, 
                                                                [self.behavior_frame_count,
                                                                 self.mapping_frame_count,
                                                                 self.replay_frame_count])
        
        self.behavior_end_frame = self.behavior_start_frame + self.behavior_frame_count - 1
        self.mapping_end_frame = self.mapping_start_frame + self.mapping_frame_count - 1
        self.replay_end_frame = self.replay_start_frame + self.replay_frame_count - 1
        
        MONITOR_LAG = 0.036 #TO DO: don't hardcode this...
        self.FRAME_APPEAR_TIMES = self.vf + MONITOR_LAG  
        
        self.behavior_start_time, self.mapping_start_time, self.replay_start_time = [self.FRAME_APPEAR_TIMES[f] for f in 
                                                                      [self.behavior_start_frame, self.mapping_start_frame, self.replay_start_frame]]
        self.behavior_end_time, self.mapping_end_time, self.replay_end_time = [self.FRAME_APPEAR_TIMES[f] for f in 
                                                                      [self.behavior_end_frame, self.mapping_end_frame, self.replay_end_frame]]
        self.probe_dirs = [self.paths['probe'+pid] for pid in self.paths['data_probes']]
        self.probe_dict = None
        self.lfp_dict = None
        
        self._run_modules()
コード例 #7
0
    def _load_pkl_data(self):
        if not self.data_stream_status['sync'][0]:
            self._load_sync_data()

        self.behavior_data = pd.read_pickle(
            self.BEHAVIOR_PKL
        ) if not self.BEHAVIOR_PKL == 'none found' else None
        self.mapping_data = pd.read_pickle(
            self.MAPPING_PKL) if not self.MAPPING_PKL == 'none found' else None
        self.replay_data = pd.read_pickle(
            self.REPLAY_PKL) if not self.REPLAY_PKL == 'none found' else None
        #self.opto_data = pd.read_pickle(self.OPTO_PKL)

        self.trials = behavior_analysis.get_trials_df(
            self.behavior_data) if self.behavior_data else None

        ### CHECK FRAME COUNTS ###

        self.behavior_frame_count = self.behavior_data['items']['behavior'][
            'intervalsms'].size + 1 if self.behavior_data else 0
        self.mapping_frame_count = self.mapping_data[
            'intervalsms'].size + 1 if self.mapping_data else 0
        self.replay_frame_count = self.replay_data[
            'intervalsms'].size + 1 if self.replay_data else 0

        self.total_pkl_frames = (self.behavior_frame_count +
                                 self.mapping_frame_count +
                                 self.replay_frame_count)

        ### CHECK THAT NO FRAMES WERE DROPPED FROM SYNC ###
        print('frames in pkl files: {}'.format(self.total_pkl_frames))
        print('frames in sync file: {}'.format(len(self.vf)))

        try:
            assert (self.total_pkl_frames == len(self.vf))
        except AssertionError:
            print('Mismatch between sync frames and pkl frames')
            if len(self.vf) < self.total_pkl_frames:
                print(
                    'Found fewer vsyncs than pkl frames, attempting to interpolate'
                )
                new_vsyncs = probeSync.patch_vsyncs(self.syncDataset,
                                                    self.behavior_data,
                                                    self.mapping_data,
                                                    self.replay_data)
                self.vsync_times = new_vsyncs
                self.FRAME_APPEAR_TIMES = self.vsync_times + self.MONITOR_LAG

        ### CHECK THAT REPLAY AND BEHAVIOR HAVE SAME FRAME COUNT ###
        print('frames in behavior stim: {}'.format(self.behavior_frame_count))
        print('frames in replay stim: {}'.format(self.replay_frame_count))

        #assert(behavior_frame_count==replay_frame_count)

        # look for potential frame offsets from aborted stims
        (self.behavior_start_frame, self.mapping_start_frame,
         self.replay_start_frame) = probeSync.get_frame_offsets(
             self.syncDataset, [
                 self.behavior_frame_count, self.mapping_frame_count,
                 self.replay_frame_count
             ])
        self.behavior_end_frame = self.behavior_start_frame + self.behavior_frame_count - 1
        self.mapping_end_frame = self.mapping_start_frame + self.mapping_frame_count - 1
        self.replay_end_frame = self.replay_start_frame + self.replay_frame_count - 1

        self.behavior_start_time, self.mapping_start_time, self.replay_start_time = [
            self.FRAME_APPEAR_TIMES[f] for f in [
                self.behavior_start_frame, self.mapping_start_frame,
                self.replay_start_frame
            ]
        ]
        self.behavior_end_time, self.mapping_end_time, self.replay_end_time = [
            self.FRAME_APPEAR_TIMES[f] for f in [
                self.behavior_end_frame, self.mapping_end_frame,
                self.replay_end_frame
            ]
        ]
        self.data_stream_status['pkl'][0] = True