def __init__(self, mainOperator, projectFileGroupName): slots = [ SerialDictSlot(mainOperator.Parameters, selfdepends=True), SerialHdf5BlockSlot(mainOperator.OutputHdf5, mainOperator.InputHdf5, mainOperator.CleanBlocks, name="CachedOutput"), SerialDictSlot(mainOperator.EventsVector, transform=str, selfdepends=True), SerialDictSlot(mainOperator.FilteredLabels, transform=str, selfdepends=True), ] if 'MergerOutput' in mainOperator.outputs: slots.append( SerialHdf5BlockSlot(mainOperator.MergerOutputHdf5, mainOperator.MergerInputHdf5, mainOperator.MergerCleanBlocks, name="MergerCachedOutput"), ) if 'CoordinateMap' in mainOperator.outputs: slots.append( SerialPickleableSlot(mainOperator.CoordinateMap, 1, pgmlink.TimestepIdCoordinateMap())) super(TrackingSerializer, self).__init__(projectFileGroupName, slots=slots)
def __init__(self, topLevelOperator, projectFileGroupName): slots = [ SerialDictSlot(topLevelOperator.Parameters, selfdepends=True), SerialHdf5BlockSlot(topLevelOperator.OutputHdf5, topLevelOperator.InputHdf5, topLevelOperator.CleanBlocks, name="CachedOutput"), SerialDictSlot(topLevelOperator.EventsVector, transform=str, selfdepends=True), SerialDictSlot(topLevelOperator.FilteredLabels, transform=str, selfdepends=True), SerialSlot(topLevelOperator.DivisionWeight), SerialSlot(topLevelOperator.DetectionWeight), SerialSlot(topLevelOperator.TransitionWeight), SerialSlot(topLevelOperator.AppearanceWeight), SerialSlot(topLevelOperator.DisappearanceWeight), SerialSlot(topLevelOperator.MaxNumObjOut) ] if 'MergerOutput' in topLevelOperator.outputs: slots.append( SerialHdf5BlockSlot(topLevelOperator.MergerOutputHdf5, topLevelOperator.MergerInputHdf5, topLevelOperator.MergerCleanBlocks, name="MergerCachedOutput"), ) if 'CoordinateMap' in topLevelOperator.outputs: slots.append( SerialPickleableSlot(topLevelOperator.CoordinateMap, 1, pgmlink.TimestepIdCoordinateMap())) super(StructuredTrackingSerializer, self).__init__(projectFileGroupName, slots=slots)
def __init__(self, topLevelOperator, projectFileGroupName): if WITH_HYTRA: slots = [ SerialDictSlot(topLevelOperator.Parameters, selfdepends=True), SerialDictSlot(topLevelOperator.FilteredLabels, transform=str, selfdepends=True), SerialPickledValueSlot(topLevelOperator.ExportSettings), SerialPickledValueSlot(topLevelOperator.HypothesesGraph), SerialPickledValueSlot(topLevelOperator.ResolvedMergers), SerialSlot(topLevelOperator.DivisionWeight), SerialSlot(topLevelOperator.DetectionWeight), SerialSlot(topLevelOperator.TransitionWeight), SerialSlot(topLevelOperator.AppearanceWeight), SerialSlot(topLevelOperator.DisappearanceWeight), SerialSlot(topLevelOperator.MaxNumObjOut) ] else: try: import pgmlink except: import pgmlinkNoIlpSolver as pgmlink slots = [ SerialDictSlot(topLevelOperator.Parameters, selfdepends=True), SerialHdf5BlockSlot(topLevelOperator.OutputHdf5, topLevelOperator.InputHdf5, topLevelOperator.CleanBlocks, name="CachedOutput"), SerialDictSlot(topLevelOperator.EventsVector, transform=str, selfdepends=True), SerialDictSlot(topLevelOperator.FilteredLabels, transform=str, selfdepends=True), SerialSlot(topLevelOperator.DivisionWeight), SerialSlot(topLevelOperator.DetectionWeight), SerialSlot(topLevelOperator.TransitionWeight), SerialSlot(topLevelOperator.AppearanceWeight), SerialSlot(topLevelOperator.DisappearanceWeight), SerialSlot(topLevelOperator.MaxNumObjOut) ] if 'MergerOutput' in topLevelOperator.outputs: slots.append( SerialHdf5BlockSlot(topLevelOperator.MergerOutputHdf5, topLevelOperator.MergerInputHdf5, topLevelOperator.MergerCleanBlocks, name="MergerCachedOutput"), ) if 'CoordinateMap' in topLevelOperator.outputs: slots.append( SerialPickleableSlot(topLevelOperator.CoordinateMap, 1, pgmlink.TimestepIdCoordinateMap())) super(StructuredTrackingSerializer, self).__init__(projectFileGroupName, slots=slots, operator=topLevelOperator)
def __init__(self, mainOperator, projectFileGroupName): # Serialization for the new pipeline (HyTra) if WITH_HYTRA: slots = [ SerialDictSlot(mainOperator.Parameters, selfdepends=True), SerialDictSlot(mainOperator.EventsVector, transform=str, selfdepends=True), SerialDictSlot(mainOperator.FilteredLabels, transform=str, selfdepends=True), SerialPickledValueSlot(mainOperator.ExportSettings), SerialPickleableSlot(mainOperator.HypothesesGraph, self.VERSION, None), SerialPickleableSlot(mainOperator.ResolvedMergers, self.VERSION, None) ] # Serialization for backward compatibility (for tracking with pgmlink) # TODO: Remove this section when Windows supports the new pipeline (HyTra) else: try: import pgmlink except: import pgmlinkNoIlpSolver as pgmlink slots = [ SerialDictSlot(mainOperator.Parameters, selfdepends=True), SerialHdf5BlockSlot(mainOperator.OutputHdf5, mainOperator.InputHdf5, mainOperator.CleanBlocks, name="CachedOutput"), SerialDictSlot(mainOperator.EventsVector, transform=str, selfdepends=True), SerialDictSlot(mainOperator.FilteredLabels, transform=str, selfdepends=True), SerialPickledValueSlot(mainOperator.ExportSettings) ] if 'MergerOutput' in mainOperator.outputs: slots.append( SerialHdf5BlockSlot(mainOperator.MergerOutputHdf5, mainOperator.MergerInputHdf5, mainOperator.MergerCleanBlocks, name="MergerCachedOutput"), ) if 'CoordinateMap' in mainOperator.outputs: slots.append( SerialPickleableSlot(mainOperator.CoordinateMap, 1, pgmlink.TimestepIdCoordinateMap())) super(TrackingSerializer, self).__init__(projectFileGroupName, slots=slots)
def track(self, time_range, x_range, y_range, z_range, size_range=(0, 100000), x_scale=1.0, y_scale=1.0, z_scale=1.0, maxDist=30, maxObj=2, divThreshold=0.5, avgSize=[0], withTracklets=False, sizeDependent=True, divWeight=10.0, detWeight=10.0, transWeight=10.0, withDivisions=True, withOpticalCorrection=True, withClassifierPrior=False, ndim=3, cplex_timeout=None, withMergerResolution=True, borderAwareWidth=0.0, withArmaCoordinates=True, appearance_cost=500, disappearance_cost=500, motionModelWeight=10.0, force_build_hypotheses_graph=False, max_nearest_neighbors=1, withBatchProcessing=False, solverName="ILP", numFramesPerSplit=0): if not self.Parameters.ready(): raise Exception("Parameter slot is not ready") if numFramesPerSplit != 0: raise Exception( "PGMLINK tracking does not support sliding window tracking") # it is assumed that the self.Parameters object is changed only at this # place (ugly assumption). Therefore we can track any changes in the # parameters as done in the following lines: If the same value for the # key is already written in the parameters dictionary, the # paramters_changed dictionary will get a "False" entry for this key, # otherwise it is set to "True" parameters = self.Parameters.value parameters['maxDist'] = maxDist parameters['maxObj'] = maxObj parameters['divThreshold'] = divThreshold parameters['avgSize'] = avgSize parameters['withTracklets'] = withTracklets parameters['sizeDependent'] = sizeDependent parameters['detWeight'] = detWeight parameters['divWeight'] = divWeight parameters['transWeight'] = transWeight parameters['withDivisions'] = withDivisions parameters['withOpticalCorrection'] = withOpticalCorrection parameters['withClassifierPrior'] = withClassifierPrior parameters['withMergerResolution'] = withMergerResolution parameters['borderAwareWidth'] = borderAwareWidth parameters['withArmaCoordinates'] = withArmaCoordinates parameters['appearanceCost'] = appearance_cost parameters['disappearanceCost'] = disappearance_cost parameters['max_nearest_neighbors'] = max_nearest_neighbors parameters['numFramesPerSplit'] = numFramesPerSplit do_build_hypotheses_graph = True if cplex_timeout: parameters['cplex_timeout'] = cplex_timeout else: parameters['cplex_timeout'] = '' cplex_timeout = float(1e75) if withClassifierPrior: if not self.DetectionProbabilities.ready() or len( self.DetectionProbabilities([0]).wait()[0]) == 0: raise DatasetConstraintError( 'Tracking', 'Classifier not ready yet. Did you forget to train the Object Count Classifier?' ) if not self.NumLabels.ready() or self.NumLabels.value < (maxObj + 1): raise DatasetConstraintError('Tracking', 'The max. number of objects must be consistent with the number of labels given in Object Count Classification.\n' +\ 'Check whether you have (i) the correct number of label names specified in Object Count Classification, and (ii) provided at least ' +\ 'one training example for each class.') if len(self.DetectionProbabilities( [0]).wait()[0][0]) < (maxObj + 1): raise DatasetConstraintError('Tracking', 'The max. number of objects must be consistent with the number of labels given in Object Count Classification.\n' +\ 'Check whether you have (i) the correct number of label names specified in Object Count Classification, and (ii) provided at least ' +\ 'one training example for each class.') median_obj_size = [0] fs, ts, empty_frame, max_traxel_id_at = self._generate_traxelstore( time_range, x_range, y_range, z_range, size_range, x_scale, y_scale, z_scale, median_object_size=median_obj_size, with_div=withDivisions, with_opt_correction=withOpticalCorrection, with_classifier_prior=withClassifierPrior) if empty_frame: raise DatasetConstraintError( 'Tracking', 'Can not track frames with 0 objects, abort.') if avgSize[0] > 0: median_obj_size = avgSize logger.info('median_obj_size = {}'.format(median_obj_size)) ep_gap = 0.05 transition_parameter = 5 fov = pgmlink.FieldOfView( time_range[0] * 1.0, x_range[0] * x_scale, y_range[0] * y_scale, z_range[0] * z_scale, time_range[-1] * 1.0, (x_range[1] - 1) * x_scale, (y_range[1] - 1) * y_scale, (z_range[1] - 1) * z_scale, ) logger.info('fov = {},{},{},{},{},{},{},{}'.format( time_range[0] * 1.0, x_range[0] * x_scale, y_range[0] * y_scale, z_range[0] * z_scale, time_range[-1] * 1.0, (x_range[1] - 1) * x_scale, (y_range[1] - 1) * y_scale, (z_range[1] - 1) * z_scale, )) if ndim == 2: assert z_range[0] * z_scale == 0 and ( z_range[1] - 1) * z_scale == 0, "fov of z must be (0,0) if ndim==2" if self.tracker is None: do_build_hypotheses_graph = True solverType = self.getPgmlinkSolverType(solverName) if do_build_hypotheses_graph: print '\033[94m' + "make new graph" + '\033[0m' self.tracker = pgmlink.ConsTracking( int(maxObj), bool(sizeDependent), # size_dependent_detection_prob float(median_obj_size[0]), # median_object_size float(maxDist), bool(withDivisions), float(divThreshold), "none", # detection_rf_filename fov, "none", # dump traxelstore, solverType, ndim) g = self.tracker.buildGraph(ts, max_nearest_neighbors) # create dummy uncertainty parameter object with just one iteration, so no perturbations at all (iter=0 -> MAP) sigmas = pgmlink.VectorOfDouble() for i in range(5): sigmas.append(0.0) uncertaintyParams = pgmlink.UncertaintyParameter( 1, pgmlink.DistrId.PerturbAndMAP, sigmas) params = self.tracker.get_conservation_tracking_parameters( 0, # forbidden_cost float(ep_gap), # ep_gap bool(withTracklets), # with tracklets float(detWeight), # detection weight float(divWeight), # division weight float(transWeight), # transition weight float(disappearance_cost), # disappearance cost float(appearance_cost), # appearance cost bool(withMergerResolution), # with merger resolution int(ndim), # ndim float(transition_parameter), # transition param float(borderAwareWidth), # border width True, #with_constraints uncertaintyParams, # uncertainty parameters float(cplex_timeout), # cplex timeout None, # transition classifier solverType, False, # training to hard constraints 1 # num threads ) # if motionModelWeight > 0: # logger.info("Registering motion model with weight {}".format(motionModelWeight)) # params.register_motion_model4_func(swirl_motion_func_creator(motionModelWeight), motionModelWeight * 25.0) try: eventsVector = self.tracker.track(params, False) eventsVector = eventsVector[ 0] # we have a vector such that we could get a vector per perturbation # extract the coordinates with the given event vector if withMergerResolution: coordinate_map = pgmlink.TimestepIdCoordinateMap() self._get_merger_coordinates(coordinate_map, time_range, eventsVector) self.CoordinateMap.setValue(coordinate_map) eventsVector = self.tracker.resolve_mergers( eventsVector, params, coordinate_map.get(), float(ep_gap), float(transWeight), bool(withTracklets), ndim, transition_parameter, max_traxel_id_at, True, # with_constraints None) # TransitionClassifier except Exception as e: raise Exception, 'Tracking terminated unsuccessfully: ' + str(e) if len(eventsVector) == 0: raise Exception, 'Tracking terminated unsuccessfully: Events vector has zero length.' events = get_events(eventsVector) self.Parameters.setValue(parameters, check_changed=False) self.EventsVector.setValue(events, check_changed=False) self.RelabeledImage.setDirty() if not withBatchProcessing: merger_layer_idx = self.parent.parent.trackingApplet._gui.currentGui( ).layerstack.findMatchingIndex(lambda x: x.name == "Merger") tracking_layer_idx = self.parent.parent.trackingApplet._gui.currentGui( ).layerstack.findMatchingIndex(lambda x: x.name == "Tracking") if 'withMergerResolution' in parameters.keys( ) and not parameters['withMergerResolution']: self.parent.parent.trackingApplet._gui.currentGui().layerstack[merger_layer_idx].colorTable = \ self.parent.parent.trackingApplet._gui.currentGui().merger_colortable else: self.parent.parent.trackingApplet._gui.currentGui().layerstack[merger_layer_idx].colorTable = \ self.parent.parent.trackingApplet._gui.currentGui().tracking_colortable
def track(self, time_range, x_range, y_range, z_range, size_range=(0, 100000), x_scale=1.0, y_scale=1.0, z_scale=1.0, maxDist=30, maxObj=2, divThreshold=0.5, avgSize=[0], withTracklets=False, sizeDependent=True, divWeight=10.0, transWeight=10.0, withDivisions=True, withOpticalCorrection=True, withClassifierPrior=False, ndim=3, cplex_timeout=None, withMergerResolution=True, borderAwareWidth=0.0, withArmaCoordinates=True, appearance_cost=500, disappearance_cost=500): if not self.Parameters.ready(): raise Exception("Parameter slot is not ready") parameters = self.Parameters.value parameters['maxDist'] = maxDist parameters['maxObj'] = maxObj parameters['divThreshold'] = divThreshold parameters['avgSize'] = avgSize parameters['withTracklets'] = withTracklets parameters['sizeDependent'] = sizeDependent parameters['divWeight'] = divWeight parameters['transWeight'] = transWeight parameters['withDivisions'] = withDivisions parameters['withOpticalCorrection'] = withOpticalCorrection parameters['withClassifierPrior'] = withClassifierPrior parameters['withMergerResolution'] = withMergerResolution parameters['borderAwareWidth'] = borderAwareWidth parameters['withArmaCoordinates'] = withArmaCoordinates parameters['appearanceCost'] = appearance_cost parameters['disappearanceCost'] = disappearance_cost if cplex_timeout: parameters['cplex_timeout'] = cplex_timeout else: parameters['cplex_timeout'] = '' cplex_timeout = float(1e75) if withClassifierPrior: if not self.DetectionProbabilities.ready() or len( self.DetectionProbabilities([0]).wait()[0]) == 0: raise Exception, 'Classifier not ready yet. Did you forget to train the Object Count Classifier?' if not self.NumLabels.ready() or self.NumLabels.value != (maxObj + 1): raise Exception, 'The max. number of objects must be consistent with the number of labels given in Object Count Classification.\n'\ 'Check whether you have (i) the correct number of label names specified in Object Count Classification, and (ii) provided at least' \ 'one training example for each class.' if len(self.DetectionProbabilities( [0]).wait()[0][0]) != (maxObj + 1): raise Exception, 'The max. number of objects must be consistent with the number of labels given in Object Count Classification.\n'\ 'Check whether you have (i) the correct number of label names specified in Object Count Classification, and (ii) provided at least' \ 'one training example for each class.' median_obj_size = [0] coordinate_map = pgmlink.TimestepIdCoordinateMap() if withArmaCoordinates: coordinate_map.initialize() ts, empty_frame = self._generate_traxelstore( time_range, x_range, y_range, z_range, size_range, x_scale, y_scale, z_scale, median_object_size=median_obj_size, with_div=withDivisions, with_opt_correction=withOpticalCorrection, with_coordinate_list= withMergerResolution, # no vigra coordinate list, that is done by arma with_classifier_prior=withClassifierPrior, coordinate_map=coordinate_map) if empty_frame: raise Exception, 'cannot track frames with 0 objects, abort.' if avgSize[0] > 0: median_obj_size = avgSize logger.info('median_obj_size = {}'.format(median_obj_size)) ep_gap = 0.05 transition_parameter = 5 fov = pgmlink.FieldOfView( time_range[0] * 1.0, x_range[0] * x_scale, y_range[0] * y_scale, z_range[0] * z_scale, time_range[-1] * 1.0, (x_range[1] - 1) * x_scale, (y_range[1] - 1) * y_scale, (z_range[1] - 1) * z_scale, ) logger.info('fov = {},{},{},{},{},{},{},{}'.format( time_range[0] * 1.0, x_range[0] * x_scale, y_range[0] * y_scale, z_range[0] * z_scale, time_range[-1] * 1.0, (x_range[1] - 1) * x_scale, (y_range[1] - 1) * y_scale, (z_range[1] - 1) * z_scale, )) if ndim == 2: assert z_range[0] * z_scale == 0 and ( z_range[1] - 1) * z_scale == 0, "fov of z must be (0,0) if ndim==2" tracker = pgmlink.ConsTracking( maxObj, float(maxDist), float(divThreshold), "none", # detection_rf_filename sizeDependent, # size_dependent_detection_prob 0, # forbidden_cost float(ep_gap), # ep_gap float(median_obj_size[0]), # median_object_size withTracklets, divWeight, transWeight, withDivisions, disappearance_cost, # disappearance cost appearance_cost, # appearance cost withMergerResolution, ndim, transition_parameter, borderAwareWidth, fov, True, #with_constraints cplex_timeout, "none" # dump traxelstore ) try: eventsVector = tracker(ts, coordinate_map.get()) except Exception as e: raise Exception, 'Tracking terminated unsuccessfully: ' + str(e) if len(eventsVector) == 0: raise Exception, 'Tracking terminated unsuccessfully: Events vector has zero length.' events = get_events(eventsVector) self.Parameters.setValue(parameters, check_changed=False) self.EventsVector.setValue(events, check_changed=False)
def track(self, time_range, x_range, y_range, z_range, size_range=(0, 100000), x_scale=1.0, y_scale=1.0, z_scale=1.0, maxDist=30, maxObj=2, divThreshold=0.5, avgSize=[0], withTracklets=False, sizeDependent=True, divWeight=10.0, transWeight=10.0, withDivisions=True, withOpticalCorrection=True, withClassifierPrior=False, ndim=3, cplex_timeout=None, withMergerResolution=True, borderAwareWidth=0.0, withArmaCoordinates=True, appearance_cost=500, disappearance_cost=500, force_build_hypotheses_graph=False): if not self.Parameters.ready(): raise Exception("Parameter slot is not ready") # it is assumed that the self.Parameters object is changed only at this # place (ugly assumption). Therefore we can track any changes in the # parameters as done in the following lines: If the same value for the # key is already written in the parameters dictionary, the # paramters_changed dictionary will get a "False" entry for this key, # otherwise it is set to "True" parameters = self.Parameters.value parameters_changed = {} self._setParameter('maxDist', maxDist, parameters, parameters_changed) self._setParameter('maxObj', maxObj, parameters, parameters_changed) self._setParameter('divThreshold', divThreshold, parameters, parameters_changed) self._setParameter('avgSize', avgSize, parameters, parameters_changed) self._setParameter('withTracklets', withTracklets, parameters, parameters_changed) self._setParameter('sizeDependent', sizeDependent, parameters, parameters_changed) self._setParameter('divWeight', divWeight, parameters, parameters_changed) self._setParameter('transWeight', transWeight, parameters, parameters_changed) self._setParameter('withDivisions', withDivisions, parameters, parameters_changed) self._setParameter('withOpticalCorrection', withOpticalCorrection, parameters, parameters_changed) self._setParameter('withClassifierPrior', withClassifierPrior, parameters, parameters_changed) self._setParameter('withMergerResolution', withMergerResolution, parameters, parameters_changed) self._setParameter('borderAwareWidth', borderAwareWidth, parameters, parameters_changed) self._setParameter('withArmaCoordinates', withArmaCoordinates, parameters, parameters_changed) self._setParameter('appearanceCost', appearance_cost, parameters, parameters_changed) self._setParameter('disappearanceCost', disappearance_cost, parameters, parameters_changed) # if self._graphBuildingParameterChanged(parameters_changed): # do_build_hypotheses_graph = True # else: # do_build_hypotheses_graph = force_build_hypotheses_graph do_build_hypotheses_graph = True if cplex_timeout: parameters['cplex_timeout'] = cplex_timeout else: parameters['cplex_timeout'] = '' cplex_timeout = float(1e75) if withClassifierPrior: if not self.DetectionProbabilities.ready() or len( self.DetectionProbabilities([0]).wait()[0]) == 0: raise Exception, 'Classifier not ready yet. Did you forget to train the Object Count Classifier?' if not self.NumLabels.ready() or self.NumLabels.value < (maxObj + 1): raise Exception, 'The max. number of objects must be consistent with the number of labels given in Object Count Classification.\n'\ 'Check whether you have (i) the correct number of label names specified in Object Count Classification, and (ii) provided at least ' \ 'one training example for each class.' if len(self.DetectionProbabilities( [0]).wait()[0][0]) < (maxObj + 1): raise Exception, 'The max. number of objects must be consistent with the number of labels given in Object Count Classification.\n'\ 'Check whether you have (i) the correct number of label names specified in Object Count Classification, and (ii) provided at least ' \ 'one training example for each class.' median_obj_size = [0] ts, empty_frame = self._generate_traxelstore( time_range, x_range, y_range, z_range, size_range, x_scale, y_scale, z_scale, median_object_size=median_obj_size, with_div=withDivisions, with_opt_correction=withOpticalCorrection, with_classifier_prior=withClassifierPrior) if empty_frame: raise Exception, 'cannot track frames with 0 objects, abort.' if avgSize[0] > 0: median_obj_size = avgSize logger.info('median_obj_size = {}'.format(median_obj_size)) ep_gap = 0.05 transition_parameter = 5 fov = pgmlink.FieldOfView( time_range[0] * 1.0, x_range[0] * x_scale, y_range[0] * y_scale, z_range[0] * z_scale, time_range[-1] * 1.0, (x_range[1] - 1) * x_scale, (y_range[1] - 1) * y_scale, (z_range[1] - 1) * z_scale, ) logger.info('fov = {},{},{},{},{},{},{},{}'.format( time_range[0] * 1.0, x_range[0] * x_scale, y_range[0] * y_scale, z_range[0] * z_scale, time_range[-1] * 1.0, (x_range[1] - 1) * x_scale, (y_range[1] - 1) * y_scale, (z_range[1] - 1) * z_scale, )) if ndim == 2: assert z_range[0] * z_scale == 0 and ( z_range[1] - 1) * z_scale == 0, "fov of z must be (0,0) if ndim==2" if self.tracker is None: do_build_hypotheses_graph = True if do_build_hypotheses_graph: print '\033[94m' + "make new graph" + '\033[0m' self.tracker = pgmlink.ConsTracking( maxObj, sizeDependent, # size_dependent_detection_prob float(median_obj_size[0]), # median_object_size float(maxDist), withDivisions, float(divThreshold), "none", # detection_rf_filename fov, "none" # dump traxelstore ) self.tracker.buildGraph(ts) try: eventsVector = self.tracker.track( 0, # forbidden_cost float(ep_gap), # ep_gap withTracklets, divWeight, transWeight, disappearance_cost, # disappearance cost appearance_cost, # appearance cost ndim, transition_parameter, borderAwareWidth, True, #with_constraints cplex_timeout) # extract the coordinates with the given event vector if withMergerResolution: coordinate_map = pgmlink.TimestepIdCoordinateMap() self._get_merger_coordinates(coordinate_map, time_range, eventsVector) self.CoordinateMap.setValue(coordinate_map) eventsVector = self.tracker.resolve_mergers( eventsVector, coordinate_map.get(), float(ep_gap), transWeight, withTracklets, ndim, transition_parameter, True, # with_constraints False) # with_multi_frame_moves except Exception as e: raise Exception, 'Tracking terminated unsuccessfully: ' + str(e) if len(eventsVector) == 0: raise Exception, 'Tracking terminated unsuccessfully: Events vector has zero length.' events = get_events(eventsVector) self.Parameters.setValue(parameters, check_changed=False) self.EventsVector.setValue(events, check_changed=False) self.RelabeledImage.setDirty() merger_layer_idx = self.parent.parent.trackingApplet._gui.currentGui( ).layerstack.findMatchingIndex(lambda x: x.name == "Merger") tracking_layer_idx = self.parent.parent.trackingApplet._gui.currentGui( ).layerstack.findMatchingIndex(lambda x: x.name == "Tracking") if 'withMergerResolution' in parameters.keys( ) and not parameters['withMergerResolution']: self.parent.parent.trackingApplet._gui.currentGui().layerstack[merger_layer_idx].colorTable = \ self.parent.parent.trackingApplet._gui.currentGui().merger_colortable else: self.parent.parent.trackingApplet._gui.currentGui().layerstack[merger_layer_idx].colorTable = \ self.parent.parent.trackingApplet._gui.currentGui().tracking_colortable
def track(self, time_range, x_range, y_range, z_range, size_range=(0, 100000), x_scale=1.0, y_scale=1.0, z_scale=1.0, maxDist=30, maxObj=2, divThreshold=0.5, avgSize=[0], withTracklets=False, sizeDependent=True, detWeight=10.0, divWeight=10.0, transWeight=10.0, withDivisions=True, withOpticalCorrection=True, withClassifierPrior=False, ndim=3, cplex_timeout=None, withMergerResolution=True, borderAwareWidth=0.0, withArmaCoordinates=True, appearance_cost=500, disappearance_cost=500, graph_building_parameter_changed=True, trainingToHardConstraints=False, max_nearest_neighbors=1): if not self.Parameters.ready(): raise Exception("Parameter slot is not ready") # it is assumed that the self.Parameters object is changed only at this # place (ugly assumption). Therefore we can track any changes in the # parameters as done in the following lines: If the same value for the # key is already written in the parameters dictionary, the # paramters_changed dictionary will get a "False" entry for this key, # otherwise it is set to "True" parameters = self.Parameters.value parameters['maxDist'] = maxDist parameters['maxObj'] = maxObj parameters['divThreshold'] = divThreshold parameters['avgSize'] = avgSize parameters['withTracklets'] = withTracklets parameters['sizeDependent'] = sizeDependent parameters['divWeight'] = divWeight parameters['transWeight'] = transWeight parameters['withDivisions'] = withDivisions parameters['withOpticalCorrection'] = withOpticalCorrection parameters['withClassifierPrior'] = withClassifierPrior parameters['withMergerResolution'] = withMergerResolution parameters['borderAwareWidth'] = borderAwareWidth parameters['withArmaCoordinates'] = withArmaCoordinates parameters['appearanceCost'] = appearance_cost parameters['disappearanceCost'] = disappearance_cost do_build_hypotheses_graph = True if cplex_timeout: parameters['cplex_timeout'] = cplex_timeout else: parameters['cplex_timeout'] = '' cplex_timeout = float(1e75) if withClassifierPrior: if not self.DetectionProbabilities.ready() or len( self.DetectionProbabilities([0]).wait()[0]) == 0: raise DatasetConstraintError( 'Tracking', 'Classifier not ready yet. Did you forget to train the Object Count Classifier?' ) if not self.NumLabels.ready() or self.NumLabels.value != (maxObj + 1): raise DatasetConstraintError('Tracking', 'The max. number of objects must be consistent with the number of labels given in Object Count Classification.\n'+\ 'Check whether you have (i) the correct number of label names specified in Object Count Classification, and (ii) provided at least' +\ 'one training example for each class.') if len(self.DetectionProbabilities( [0]).wait()[0][0]) != (maxObj + 1): raise DatasetConstraintError('Tracking', 'The max. number of objects must be consistent with the number of labels given in Object Count Classification.\n'+\ 'Check whether you have (i) the correct number of label names specified in Object Count Classification, and (ii) provided at least' +\ 'one training example for each class.') median_obj_size = [0] fs, ts, empty_frame, max_traxel_id_at = self._generate_traxelstore( time_range, x_range, y_range, z_range, size_range, x_scale, y_scale, z_scale, median_object_size=median_obj_size, with_div=withDivisions, with_opt_correction=withOpticalCorrection, with_classifier_prior=withClassifierPrior) if empty_frame: raise DatasetConstraintError( 'Tracking', 'Can not track frames with 0 objects, abort.') if avgSize[0] > 0: median_obj_size = avgSize logger.info('median_obj_size = {}'.format(median_obj_size)) ep_gap = 0.05 fov = pgmlink.FieldOfView( time_range[0] * 1.0, x_range[0] * x_scale, y_range[0] * y_scale, z_range[0] * z_scale, time_range[-1] * 1.0, (x_range[1] - 1) * x_scale, (y_range[1] - 1) * y_scale, (z_range[1] - 1) * z_scale, ) logger.info('fov = {},{},{},{},{},{},{},{}'.format( time_range[0] * 1.0, x_range[0] * x_scale, y_range[0] * y_scale, z_range[0] * z_scale, time_range[-1] * 1.0, (x_range[1] - 1) * x_scale, (y_range[1] - 1) * y_scale, (z_range[1] - 1) * z_scale, )) if ndim == 2: assert z_range[0] * z_scale == 0 and ( z_range[1] - 1) * z_scale == 0, "fov of z must be (0,0) if ndim==2" if (self.consTracker == None or graph_building_parameter_changed ): # or do_build_hypotheses_graph): foundAllArcs = False new_max_nearest_neighbors = max_nearest_neighbors - 1 while not foundAllArcs: new_max_nearest_neighbors += 1 logger.info('\033[94m' + "make new graph" + '\033[0m') self.consTracker = pgmlink.ConsTracking( maxObj, sizeDependent, # size_dependent_detection_prob float(median_obj_size[0]), # median_object_size float(maxDist), withDivisions, float(divThreshold), "none", # detection_rf_filename fov, "none", # dump traxelstore, pgmlink.ConsTrackingSolverType.CplexSolver, ndim) hypothesesGraph = self.consTracker.buildGraph( ts, new_max_nearest_neighbors) self.features = self.ObjectFeatures( range(0, self.LabelImage.meta.shape[0])).wait() foundAllArcs = True if trainingToHardConstraints: logger.info( "Tracking: Adding Training Annotations to Hypotheses Graph" ) # could be merged with code in structuredTrackingGui self.consTracker.addLabels() for cropKey in self.Annotations.value.keys(): if foundAllArcs: crop = self.Annotations.value[cropKey] if "labels" in crop.keys(): labels = crop["labels"] for time in labels.keys(): if not foundAllArcs: break for label in labels[time].keys(): if not foundAllArcs: break trackSet = labels[time][label] center = self.features[time][ 'Default features'][ 'RegionCenter'][label] trackCount = len(trackSet) for track in trackSet: if not foundAllArcs: logger.info( "[opStructuredTracking] Increasing max nearest neighbors!" ) break # is this a FIRST, INTERMEDIATE, LAST, SINGLETON(FIRST_LAST) object of a track (or FALSE_DETECTION) type = self._type( cropKey, time, track ) # returns [type, previous_label] if type=="LAST" or "INTERMEDIATE" (else [type]) if type[0] == "LAST" or type[ 0] == "INTERMEDIATE": previous_label = int(type[1]) previousTrackSet = labels[ time - 1][previous_label] intersectionSet = trackSet.intersection( previousTrackSet) trackCountIntersection = len( intersectionSet) foundAllArcs &= self.consTracker.addArcLabel( time - 1, int(previous_label), int(label), float( trackCountIntersection) ) if not foundAllArcs: logger.info( "[opStructuredTracking] Increasing max nearest neighbors!" ) break if type[0] == "FIRST": self.consTracker.addFirstLabels( time, int(label), float(trackCount)) if time > self.Crops.value[ cropKey]["time"][0]: self.consTracker.addDisappearanceLabel( time, int(label), 0.0) elif type[0] == "LAST": self.consTracker.addLastLabels( time, int(label), float(trackCount)) if time < self.Crops.value[ cropKey]["time"][1]: self.consTracker.addAppearanceLabel( time, int(label), 0.0) elif type[0] == "INTERMEDIATE": self.consTracker.addIntermediateLabels( time, int(label), float(trackCount)) if "divisions" in crop.keys(): divisions = crop["divisions"] for track in divisions.keys(): if not foundAllArcs: logger.info( "[opStructuredTracking] Increasing max nearest neighbors!" ) break division = divisions[track] time = int(division[1]) parent = int( self.getLabelInCrop( cropKey, time, track)) if parent >= 0: self.consTracker.addDivisionLabel( time, parent, 1.0) self.consTracker.addAppearanceLabel( time, parent, 1.0) self.consTracker.addDisappearanceLabel( time, parent, 1.0) child0 = int( self.getLabelInCrop( cropKey, time + 1, division[0][0])) self.consTracker.addDisappearanceLabel( time + 1, child0, 1.0) self.consTracker.addAppearanceLabel( time + 1, child0, 1.0) foundAllArcs &= self.consTracker.addArcLabel( time, parent, child0, 1.0) if not foundAllArcs: logger.info( "[opStructuredTracking] Increasing max nearest neighbors!" ) break child1 = int( self.getLabelInCrop( cropKey, time + 1, division[0][1])) self.consTracker.addDisappearanceLabel( time + 1, child1, 1.0) self.consTracker.addAppearanceLabel( time + 1, child1, 1.0) foundAllArcs &= self.consTracker.addArcLabel( time, parent, child1, 1.0) if not foundAllArcs: logger.info( "[opStructuredTracking] Increasing max nearest neighbors!" ) break logger.info("max nearest neighbors={}".format( new_max_nearest_neighbors)) drawer = self.parent.parent.trackingApplet._gui.currentGui()._drawer if new_max_nearest_neighbors > max_nearest_neighbors: max_nearest_neighbors = new_max_nearest_neighbors drawer.maxNearestNeighborsSpinBox.setValue(max_nearest_neighbors) self.parent.parent.trackingApplet._gui.currentGui( )._maxNearestNeighbors = max_nearest_neighbors # create dummy uncertainty parameter object with just one iteration, so no perturbations at all (iter=0 -> MAP) sigmas = pgmlink.VectorOfDouble() for i in range(5): sigmas.append(0.0) uncertaintyParams = pgmlink.UncertaintyParameter( 1, pgmlink.DistrId.PerturbAndMAP, sigmas) self.detectionWeight = drawer.detWeightBox.value() self.divisionWeight = drawer.divWeightBox.value() self.transitionWeight = drawer.transWeightBox.value() self.appearanceWeight = drawer.appearanceBox.value() self.disappearanceWeight = drawer.disappearanceBox.value() logger.info("detectionWeight= {}".format(self.detectionWeight)) logger.info("divisionWeight={}".format(self.divisionWeight)) logger.info("transitionWeight={}".format(self.transitionWeight)) logger.info("appearanceWeight={}".format(self.appearanceWeight)) logger.info("disappearanceWeight={}".format(self.disappearanceWeight)) consTrackerParameters = self.consTracker.get_conservation_tracking_parameters( 0, # forbidden_cost float(ep_gap), withTracklets, self.detectionWeight, self.divisionWeight, self.transitionWeight, self.disappearanceWeight, self.appearanceWeight, withMergerResolution, ndim, self.transition_parameter, borderAwareWidth, True, #with_constraints uncertaintyParams, cplex_timeout, None, # TransitionClassifier pgmlink.ConsTrackingSolverType.CplexSolver, trainingToHardConstraints, 1) # default: False # will be needed for python defined TRANSITION function # consTrackerParameters.register_transition_func(self.track_transition_func) fixLabeledNodes = False try: eventsVector = self.consTracker.track(consTrackerParameters, fixLabeledNodes) eventsVector = eventsVector[ 0] # we have a vector such that we could get a vector per perturbation if withMergerResolution: coordinate_map = pgmlink.TimestepIdCoordinateMap() self._get_merger_coordinates(coordinate_map, time_range, eventsVector) self.CoordinateMap.setValue(coordinate_map) eventsVector = self.consTracker.resolve_mergers( eventsVector, consTrackerParameters, coordinate_map.get(), float(ep_gap), transWeight, withTracklets, ndim, self.transition_parameter, max_traxel_id_at, True, # with_constraints None) # TransitionClassifier except Exception as e: if trainingToHardConstraints: raise Exception, 'Tracking: Your training can not be extended to a feasible solution! ' + \ 'Turn training to hard constraints off or correct your tracking training. ' else: raise Exception, 'Tracking terminated unsuccessfully: ' + str( e) if len(eventsVector) == 0: raise Exception, 'Tracking terminated unsuccessfully: Events vector has zero length.' events = get_events(eventsVector) self.Parameters.setValue(parameters, check_changed=False) self.EventsVector.setValue(events, check_changed=False) self.RelabeledImage.setDirty() merger_layer_idx = self.parent.parent.trackingApplet._gui.currentGui( ).layerstack.findMatchingIndex(lambda x: x.name == "Merger") tracking_layer_idx = self.parent.parent.trackingApplet._gui.currentGui( ).layerstack.findMatchingIndex(lambda x: x.name == "Tracking") if 'withMergerResolution' in parameters.keys( ) and not parameters['withMergerResolution']: self.parent.parent.trackingApplet._gui.currentGui().layerstack[merger_layer_idx].colorTable = \ self.parent.parent.trackingApplet._gui.currentGui().merger_colortable else: self.parent.parent.trackingApplet._gui.currentGui().layerstack[merger_layer_idx].colorTable = \ self.parent.parent.trackingApplet._gui.currentGui().tracking_colortable