def mk_traxel(x, y, z, id):
t = pgmlink.Traxel()
t.ID = id
t.add_feature_array("com", 3)
t.set_feature_value("com", 0, x)
t.set_feature_value("com", 1, y)
t.set_feature_value("com", 2, z)
return t
def test_property_maps(self):
t = pgmlink.Traxel()
t.Id = 33
g = pgmlink.HypothesesGraph()
n1 = g.addNode(0)
m = g.addNodeTraxelMap()
m[n1] = t
self.assertEqual(m[n1].Id, 33)
def generate_traxelstore(h5file,
options,
feature_path,
time_range,
x_range,
y_range,
z_range,
size_range,
x_scale=1.0,
y_scale=1.0,
z_scale=1.0,
with_div=True,
median_object_size=None,
max_traxel_id_at=None,
with_merger_prior=True,
max_num_mergers=1,
ext_probs=None):
"""
Legacy way of creating the "traxelstore", that can handle the old drosophila and rapoport
ilastik project files and load the stored probabilities.
"""
logging.getLogger('hypotheses_graph_to_json.py').info("generating traxels")
logging.getLogger('hypotheses_graph_to_json.py').info(
"filling traxelstore")
try:
import pgmlink as track
ts = track.TraxelStore()
fs = track.FeatureStore()
max_traxel_id_at = track.VectorOfInt()
withPgmlink = True
except:
import hytra.core.probabilitygenerator as track
withPgmlink = False
ts, fs = None, None
max_traxel_id_at = []
logging.getLogger('hypotheses_graph_to_json.py').info(
"fetching region features and division probabilities")
logging.getLogger('hypotheses_graph_to_json.py').debug(
"region features path: {}".format(options.obj_count_path))
logging.getLogger('hypotheses_graph_to_json.py').debug(
"division features path: {}".format(options.div_prob_path))
logging.getLogger('hypotheses_graph_to_json.py').debug("{}, {}".format(
h5file.filename, feature_path))
detection_probabilities = []
division_probabilities = []
if with_div:
logging.getLogger('hypotheses_graph_to_json.py').debug(
options.div_prob_path)
divProbs = h5file[options.div_prob_path]
if with_merger_prior:
detProbs = h5file[options.obj_count_path]
if x_range is None:
x_range = [0, sys.maxint]
if y_range is None:
y_range = [0, sys.maxint]
if z_range is None:
z_range = [0, sys.maxint]
shape_t = len(h5file[options.obj_count_path].keys())
keys_sorted = range(shape_t)
if time_range is not None:
if time_range[1] == -1:
time_range[1] = shape_t
keys_sorted = [
key for key in keys_sorted
if time_range[0] <= int(key) < time_range[1]
]
else:
time_range = (0, shape_t)
# use this as Traxelstore dummy if we're not using pgmlink
if not withPgmlink:
class TSDummy:
traxels = []
def bounding_box(self):
return [time_range[0], 0, 0, 0, time_range[1], 1, 1, 1]
def add(self, fs, traxel):
self.traxels.append(traxel)
ts = TSDummy()
filtered_labels = {}
obj_sizes = []
total_count = 0
empty_frame = False
for t in keys_sorted:
feats_name = options.feats_path % (t, t + 1, 'RegionCenter')
# region_centers = np.array(feats[t]['0']['RegionCenter'])
region_centers = np.array(h5file[feats_name])
feats_name = options.feats_path % (t, t + 1, 'Coord<Minimum>')
lower = np.array(h5file[feats_name])
feats_name = options.feats_path % (t, t + 1, 'Coord<Maximum>')
upper = np.array(h5file[feats_name])
if region_centers.size:
region_centers = region_centers[1:, ...]
lower = lower[1:, ...]
upper = upper[1:, ...]
feats_name = options.feats_path % (t, t + 1, 'Count')
# pixel_count = np.array(feats[t]['0']['Count'])
pixel_count = np.array(h5file[feats_name])
if pixel_count.size:
pixel_count = pixel_count[1:, ...]
logging.getLogger('hypotheses_graph_to_json.py').info(
"at timestep {}, {} traxels found".format(t,
region_centers.shape[0]))
count = 0
filtered_labels[t] = []
for idx in range(region_centers.shape[0]):
if len(region_centers[idx]) == 2:
x, y = region_centers[idx]
z = 0
elif len(region_centers[idx]) == 3:
x, y, z = region_centers[idx]
else:
raise Exception(
"The RegionCenter feature must have dimensionality 2 or 3."
)
size = pixel_count[idx]
if (x < x_range[0] or x >= x_range[1] or y < y_range[0]
or y >= y_range[1] or z < z_range[0] or z >= z_range[1]
or size < size_range[0] or size >= size_range[1]):
filtered_labels[t].append(int(idx + 1))
continue
else:
count += 1
traxel = track.Traxel()
if withPgmlink:
traxel.set_feature_store(fs)
traxel.set_x_scale(x_scale)
traxel.set_y_scale(y_scale)
traxel.set_z_scale(z_scale)
traxel.Id = int(idx + 1)
traxel.Timestep = int(t)
traxel.add_feature_array("com", 3)
for i, v in enumerate([x, y, z]):
traxel.set_feature_value('com', i, float(v))
if with_div:
traxel.add_feature_array("divProb", 1)
prob = 0.0
prob = float(divProbs[str(t)][idx + 1][1])
# idx+1 because region_centers and pixel_count start from 1, divProbs starts from 0
traxel.set_feature_value("divProb", 0, prob)
division_probabilities.append(prob)
if with_merger_prior and ext_probs is None:
traxel.add_feature_array("detProb", max_num_mergers + 1)
probs = []
for i in range(len(detProbs[str(t)][idx + 1])):
probs.append(float(detProbs[str(t)][idx + 1][i]))
probs[max_num_mergers] = sum(probs[max_num_mergers:])
for i in range(max_num_mergers + 1):
traxel.set_feature_value("detProb", i, float(probs[i]))
detection_probabilities.append([
traxel.get_feature_value("detProb", i)
for i in range(max_num_mergers + 1)
])
traxel.add_feature_array("count", 1)
traxel.set_feature_value("count", 0, float(size))
if median_object_size is not None:
obj_sizes.append(float(size))
ts.add(fs, traxel)
logging.getLogger('hypotheses_graph_to_json.py').info(
"at timestep {}, {} traxels passed filter".format(t, count))
max_traxel_id_at.append(int(region_centers.shape[0]))
if count == 0:
empty_frame = True
total_count += count
if median_object_size is not None:
median_object_size[0] = np.median(np.array(obj_sizes),
overwrite_input=True)
logging.getLogger('hypotheses_graph_to_json.py').info(
'median object size = {}'.format(median_object_size[0]))
return ts, fs, max_traxel_id_at, division_probabilities, detection_probabilities
def generate_traxelstore(h5file,
options,
feature_path,
time_range,
x_range,
y_range,
z_range,
size_range,
x_scale=1.0,
y_scale=1.0,
z_scale=1.0,
with_div=True,
with_local_centers=False,
median_object_size=None,
max_traxel_id_at=None,
with_merger_prior=True,
max_num_mergers=1,
with_optical_correction=False,
ext_probs=None):
print "generating traxels"
print "filling traxelstore"
ts = track.TraxelStore()
fs = track.FeatureStore()
max_traxel_id_at = track.VectorOfInt()
print "fetching region features and division probabilities"
print h5file.filename, feature_path
detection_probabilities = []
division_probabilities = []
if with_div:
print options.div_prob_path
divProbs = h5file[options.div_prob_path]
if with_merger_prior:
detProbs = h5file[options.obj_count_path]
if with_local_centers:
localCenters = None # self.RegionLocalCenters(time_range).wait()
if x_range is None:
x_range = [0, sys.maxint]
if y_range is None:
y_range = [0, sys.maxint]
if z_range is None:
z_range = [0, sys.maxint]
shape_t = len(h5file[options.obj_count_path].keys())
keys_sorted = range(shape_t)
if time_range is not None:
if time_range[1] == -1:
time_range[1] = shape_t
keys_sorted = [
key for key in keys_sorted
if time_range[0] <= int(key) < time_range[1]
]
else:
time_range = (0, shape_t)
filtered_labels = {}
obj_sizes = []
total_count = 0
empty_frame = False
for t in keys_sorted:
feats_name = options.feats_path % (t, t + 1, 'RegionCenter')
#region_centers = np.array(feats[t]['0']['RegionCenter'])
region_centers = np.array(h5file[feats_name])
feats_name = options.feats_path % (t, t + 1, 'Coord<Minimum>')
lower = np.array(h5file[feats_name])
feats_name = options.feats_path % (t, t + 1, 'Coord<Maximum>')
upper = np.array(h5file[feats_name])
if region_centers.size:
region_centers = region_centers[1:, ...]
lower = lower[1:, ...]
upper = upper[1:, ...]
if with_optical_correction:
try:
feats_name = options.feats_path % (t, t + 1,
'RegionCenter_corr')
region_centers_corr = np.array(h5file[feats_name])
except:
raise Exception, 'cannot consider optical correction since it has not been computed'
if region_centers_corr.size:
region_centers_corr = region_centers_corr[1:, ...]
feats_name = options.feats_path % (t, t + 1, 'Count')
#pixel_count = np.array(feats[t]['0']['Count'])
pixel_count = np.array(h5file[feats_name])
if pixel_count.size:
pixel_count = pixel_count[1:, ...]
print "at timestep ", t, region_centers.shape[0], "traxels found"
count = 0
filtered_labels[t] = []
for idx in range(region_centers.shape[0]):
if len(region_centers[idx]) == 2:
x, y = region_centers[idx]
z = 0
elif len(region_centers[idx]) == 3:
x, y, z = region_centers[idx]
else:
raise Exception, "The RegionCenter feature must have dimensionality 2 or 3."
size = pixel_count[idx]
if (x < x_range[0] or x >= x_range[1] or y < y_range[0]
or y >= y_range[1] or z < z_range[0] or z >= z_range[1]
or size < size_range[0] or size >= size_range[1]):
filtered_labels[t].append(int(idx + 1))
continue
else:
count += 1
traxel = track.Traxel()
traxel.set_feature_store(fs)
traxel.set_x_scale(x_scale)
traxel.set_y_scale(y_scale)
traxel.set_z_scale(z_scale)
traxel.Id = int(idx + 1)
traxel.Timestep = int(t)
traxel.add_feature_array("com", 3)
for i, v in enumerate([x, y, z]):
traxel.set_feature_value('com', i, float(v))
if with_optical_correction:
traxel.add_feature_array("com_corrected", 3)
for i, v in enumerate(region_centers_corr[idx]):
traxel.set_feature_value("com_corrected", i, float(v))
if len(region_centers_corr[idx]) == 2:
traxel.set_feature_value("com_corrected", 2, 0.)
if with_div:
traxel.add_feature_array("divProb", 1)
prob = 0.0
prob = float(divProbs[str(t)][idx + 1][1])
# idx+1 because region_centers and pixel_count start from 1, divProbs starts from 0
traxel.set_feature_value("divProb", 0, prob)
division_probabilities.append(prob)
if with_local_centers:
raise Exception, "not yet implemented"
traxel.add_feature_array("localCentersX",
len(localCenters[t][idx + 1]))
traxel.add_feature_array("localCentersY",
len(localCenters[t][idx + 1]))
traxel.add_feature_array("localCentersZ",
len(localCenters[t][idx + 1]))
for i, v in enumerate(localCenters[t][idx + 1]):
traxel.set_feature_value("localCentersX", i, float(v[0]))
traxel.set_feature_value("localCentersY", i, float(v[1]))
traxel.set_feature_value("localCentersZ", i, float(v[2]))
if with_merger_prior and ext_probs is None:
traxel.add_feature_array("detProb", max_num_mergers + 1)
probs = []
for i in range(len(detProbs[str(t)][idx + 1])):
probs.append(float(detProbs[str(t)][idx + 1][i]))
probs[max_num_mergers] = sum(probs[max_num_mergers:])
for i in range(max_num_mergers + 1):
traxel.set_feature_value("detProb", i, float(probs[i]))
detection_probabilities.append([
traxel.get_feature_value("detProb", i)
for i in range(max_num_mergers + 1)
])
traxel.add_feature_array("count", 1)
traxel.set_feature_value("count", 0, float(size))
if median_object_size is not None:
obj_sizes.append(float(size))
ts.add(fs, traxel)
print "at timestep ", t, count, "traxels passed filter"
max_traxel_id_at.append(int(region_centers.shape[0]))
if count == 0:
empty_frame = True
total_count += count
# load features from raw data
if len(options.raw_filename) > 0:
print("Computing Features from Raw Data: {}".format(
options.raw_filename))
start_time = time.time()
with h5py.File(options.raw_filename, 'r') as raw_h5:
shape = h5file['/'.join(
options.label_img_path.split('/')[:-1])].values()[0].shape[1:4]
shape = (len(h5file['/'.join(
options.label_img_path.split('/')[:-1])].values()), ) + shape
print("Shape is {}".format(shape))
# loop over all frames and compute features for all traxels per frame
for timestep in xrange(max(0, time_range[0]),
min(shape[0], time_range[1])):
print("\tFrame {}".format(timestep))
# TODO: handle smaller FOV instead of looking at full frame
label_image_path = options.label_img_path % (
timestep, timestep + 1, shape[1], shape[2], shape[3])
label_image = np.array(
h5file[label_image_path][0, ...,
0]).squeeze().astype(np.uint32)
raw_image = np.array(raw_h5['/'.join(
options.raw_path.split('/'))][timestep, ...,
0]).squeeze().astype(
np.float32)
max_traxel_id = track.extract_region_features(
raw_image, label_image, fs, timestep)
# uncomment the following if no features are taken from the ilp file any more
#
#max_traxel_id_at.append(max_traxel_id)
# for idx in xrange(1, max_traxel_id):
# traxel = track.Traxel()
# traxel.set_x_scale(x_scale)
# traxel.set_y_scale(y_scale)
# traxel.set_z_scale(z_scale)
# traxel.Id = idx
# traxel.Timestep = timestep
# ts.add(fs, traxel)
end_time = time.time()
print("Feature computation for a dataset of shape {} took {} secs".
format(shape, end_time - start_time))
#fs.dump()
if median_object_size is not None:
median_object_size[0] = np.median(np.array(obj_sizes),
overwrite_input=True)
print 'median object size = ' + str(median_object_size[0])
return ts, fs, max_traxel_id_at, division_probabilities, detection_probabilities
def _generate_traxelstore(self,
time_range,
x_range,
y_range,
z_range,
size_range,
x_scale=1.0,
y_scale=1.0,
z_scale=1.0,
with_div=False,
with_local_centers=False,
median_object_size=None,
max_traxel_id_at=None):
if not self.Parameters.ready():
raise Exception("Parameter slot is not ready")
parameters = self.Parameters.value
parameters['scales'] = [x_scale, y_scale, z_scale]
parameters['time_range'] = [min(time_range), max(time_range)]
parameters['x_range'] = x_range
parameters['y_range'] = y_range
parameters['z_range'] = z_range
parameters['size_range'] = size_range
print "generating traxels"
print "fetching region features and division probabilities"
feats = self.ObjectFeatures(time_range).wait()
if with_div:
divProbs = self.ClassMapping(time_range).wait()
if with_local_centers:
localCenters = self.RegionLocalCenters(time_range).wait()
print "filling traxelstore"
ts = pgmlink.TraxelStore()
max_traxel_id_at = pgmlink.VectorOfInt()
filtered_labels = {}
obj_sizes = []
total_count = 0
empty_frame = False
for t in feats.keys():
rc = feats[t][default_features_key]['RegionCenter']
if rc.size:
rc = rc[1:, ...]
ct = feats[t][default_features_key]['Count']
if ct.size:
ct = ct[1:, ...]
print "at timestep ", t, rc.shape[0], "traxels found"
count = 0
filtered_labels[t] = []
for idx in range(rc.shape[0]):
# for 2d data, set z-coordinate to 0:
if len(rc[idx]) == 2:
x, y = rc[idx]
z = 0
elif len(rc[idx]) == 3:
x, y, z = rc[idx]
else:
raise Exception, "The RegionCenter feature must have dimensionality 2 or 3."
size = ct[idx]
if (x < x_range[0] or x >= x_range[1] or y < y_range[0]
or y >= y_range[1] or z < z_range[0] or z >= z_range[1]
or size < size_range[0] or size >= size_range[1]):
filtered_labels[t].append(int(idx + 1))
continue
else:
count += 1
tr = pgmlink.Traxel()
tr.set_x_scale(x_scale)
tr.set_y_scale(y_scale)
tr.set_z_scale(z_scale)
tr.Id = int(idx + 1)
tr.Timestep = t
# pgmlink expects always 3 coordinates, z=0 for 2d data
tr.add_feature_array("com", 3)
for i, v in enumerate([x, y, z]):
tr.set_feature_value('com', i, float(v))
if with_div:
tr.add_feature_array("divProb", 1)
# idx+1 because rc and ct start from 1, divProbs starts from 0
tr.set_feature_value("divProb", 0,
float(divProbs[t][idx + 1][1]))
# FIXME: check whether it is 2d or 3d data!
if with_local_centers:
tr.add_feature_array("localCentersX",
len(localCenters[t][idx + 1]))
tr.add_feature_array("localCentersY",
len(localCenters[t][idx + 1]))
tr.add_feature_array("localCentersZ",
len(localCenters[t][idx + 1]))
for i, v in enumerate(localCenters[t][idx + 1]):
tr.set_feature_value("localCentersX", i, float(v[0]))
tr.set_feature_value("localCentersY", i, float(v[1]))
tr.set_feature_value("localCentersZ", i, float(v[2]))
tr.add_feature_array("count", 1)
tr.set_feature_value("count", 0, float(size))
if median_object_size is not None:
obj_sizes.append(float(size))
ts.add(tr)
print "at timestep ", t, count, "traxels passed filter"
max_traxel_id_at.append(int(rc.shape[0]))
if count == 0:
empty_frame = True
total_count += count
if median_object_size is not None:
median_object_size[0] = np.median(np.array(obj_sizes),
overwrite_input=True)
print 'median object size = ' + str(median_object_size[0])
return ts, filtered_labels, empty_frame
def _generate_traxelstore(self,
time_range,
x_range,
y_range,
z_range,
size_range,
x_scale=1.0,
y_scale=1.0,
z_scale=1.0,
with_div=False,
with_local_centers=False,
median_object_size=None,
max_traxel_id_at=None,
with_opt_correction=False,
with_coordinate_list=False,
with_classifier_prior=False,
coordinate_map=None):
if not self.Parameters.ready():
raise Exception("Parameter slot is not ready")
if coordinate_map is not None and not with_coordinate_list:
coordinate_map.initialize()
parameters = self.Parameters.value
parameters['scales'] = [x_scale, y_scale, z_scale]
parameters['time_range'] = [min(time_range), max(time_range)]
parameters['x_range'] = x_range
parameters['y_range'] = y_range
parameters['z_range'] = z_range
parameters['size_range'] = size_range
logger.info("generating traxels")
logger.info("fetching region features and division probabilities")
feats = self.ObjectFeatures(time_range).wait()
if with_div:
if not self.DivisionProbabilities.ready() or len(
self.DivisionProbabilities([0]).wait()[0]) == 0:
raise Exception, "Classifier not yet ready. Did you forget to train the Division Detection Classifier?"
divProbs = self.DivisionProbabilities(time_range).wait()
if with_local_centers:
localCenters = self.RegionLocalCenters(time_range).wait()
if with_classifier_prior:
if not self.DetectionProbabilities.ready() or len(
self.DetectionProbabilities([0]).wait()[0]) == 0:
raise Exception, "Classifier not yet ready. Did you forget to train the Object Count Classifier?"
detProbs = self.DetectionProbabilities(time_range).wait()
logger.info("filling traxelstore")
ts = pgmlink.TraxelStore()
max_traxel_id_at = pgmlink.VectorOfInt()
filtered_labels = {}
obj_sizes = []
total_count = 0
empty_frame = False
for t in feats.keys():
rc = feats[t][default_features_key]['RegionCenter']
lower = feats[t][default_features_key]['Coord<Minimum>']
upper = feats[t][default_features_key]['Coord<Maximum>']
if rc.size:
rc = rc[1:, ...]
lower = lower[1:, ...]
upper = upper[1:, ...]
if with_opt_correction:
try:
rc_corr = feats[t][
config.features_vigra_name]['RegionCenter_corr']
except:
raise Exception, 'cannot consider optical correction since it has not been computed before'
if rc_corr.size:
rc_corr = rc_corr[1:, ...]
ct = feats[t][default_features_key]['Count']
if ct.size:
ct = ct[1:, ...]
logger.info("at timestep {}, {} traxels found".format(
t, rc.shape[0]))
count = 0
filtered_labels_at = []
for idx in range(rc.shape[0]):
# for 2d data, set z-coordinate to 0:
if len(rc[idx]) == 2:
x, y = rc[idx]
z = 0
elif len(rc[idx]) == 3:
x, y, z = rc[idx]
else:
raise Exception, "The RegionCenter feature must have dimensionality 2 or 3."
size = ct[idx]
if (x < x_range[0] or x >= x_range[1] or y < y_range[0]
or y >= y_range[1] or z < z_range[0] or z >= z_range[1]
or size < size_range[0] or size >= size_range[1]):
filtered_labels_at.append(int(idx + 1))
continue
else:
count += 1
tr = pgmlink.Traxel()
tr.set_x_scale(x_scale)
tr.set_y_scale(y_scale)
tr.set_z_scale(z_scale)
tr.Id = int(idx + 1)
tr.Timestep = t
# pgmlink expects always 3 coordinates, z=0 for 2d data
tr.add_feature_array("com", 3)
for i, v in enumerate([x, y, z]):
tr.set_feature_value('com', i, float(v))
if with_opt_correction:
tr.add_feature_array("com_corrected", 3)
for i, v in enumerate(rc_corr[idx]):
tr.set_feature_value("com_corrected", i, float(v))
if len(rc_corr[idx]) == 2:
tr.set_feature_value("com_corrected", 2, 0.)
if with_div:
tr.add_feature_array("divProb", 1)
# idx+1 because rc and ct start from 1, divProbs starts from 0
tr.set_feature_value("divProb", 0,
float(divProbs[t][idx + 1][1]))
if with_classifier_prior:
tr.add_feature_array("detProb", len(detProbs[t][idx + 1]))
for i, v in enumerate(detProbs[t][idx + 1]):
val = float(v)
if val < 0.0000001:
val = 0.0000001
if val > 0.99999999:
val = 0.99999999
tr.set_feature_value("detProb", i, float(v))
# FIXME: check whether it is 2d or 3d data!
if with_local_centers:
tr.add_feature_array("localCentersX",
len(localCenters[t][idx + 1]))
tr.add_feature_array("localCentersY",
len(localCenters[t][idx + 1]))
tr.add_feature_array("localCentersZ",
len(localCenters[t][idx + 1]))
for i, v in enumerate(localCenters[t][idx + 1]):
tr.set_feature_value("localCentersX", i, float(v[0]))
tr.set_feature_value("localCentersY", i, float(v[1]))
tr.set_feature_value("localCentersZ", i, float(v[2]))
tr.add_feature_array("count", 1)
tr.set_feature_value("count", 0, float(size))
if median_object_size is not None:
obj_sizes.append(float(size))
ts.add(tr)
# add coordinate lists
if with_coordinate_list and coordinate_map is not None: # store coordinates in arma::mat
# generate roi: assume the following order: txyzc
n_dim = len(rc[idx])
roi = [0] * 5
roi[0] = slice(int(t), int(t + 1))
roi[1] = slice(int(lower[idx][0]), int(upper[idx][0] + 1))
roi[2] = slice(int(lower[idx][1]), int(upper[idx][1] + 1))
if n_dim == 3:
roi[3] = slice(int(lower[idx][2]),
int(upper[idx][2] + 1))
else:
assert n_dim == 2
image_excerpt = self.LabelImage[roi].wait()
if n_dim == 2:
image_excerpt = image_excerpt[0, ..., 0, 0]
elif n_dim == 3:
image_excerpt = image_excerpt[0, ..., 0]
else:
raise Exception, "n_dim = %s instead of 2 or 3"
pgmlink.extract_coordinates(coordinate_map, image_excerpt,
lower[idx].astype(np.int64),
tr)
if len(filtered_labels_at) > 0:
filtered_labels[str(int(t) -
time_range[0])] = filtered_labels_at
logger.info("at timestep {}, {} traxels passed filter".format(
t, count))
max_traxel_id_at.append(int(rc.shape[0]))
if count == 0:
empty_frame = True
total_count += count
if median_object_size is not None:
median_object_size[0] = np.median(np.array(obj_sizes),
overwrite_input=True)
logger.info('median object size = ' + str(median_object_size[0]))
self.FilteredLabels.setValue(filtered_labels, check_changed=False)
return ts, empty_frame
def _generate_traxelstore(self,
time_range,
x_range,
y_range,
z_range,
size_range,
x_scale=1.0,
y_scale=1.0,
z_scale=1.0,
with_div=False,
with_local_centers=False,
median_object_size=None,
max_traxel_id_at=None,
with_opt_correction=False,
with_coordinate_list=False,
with_classifier_prior=False):
if not self.Parameters.ready():
raise Exception("Parameter slot is not ready")
parameters = self.Parameters.value
parameters['scales'] = [x_scale, y_scale, z_scale]
parameters['time_range'] = [min(time_range), max(time_range)]
parameters['x_range'] = x_range
parameters['y_range'] = y_range
parameters['z_range'] = z_range
parameters['size_range'] = size_range
logger.info("generating traxels")
logger.info("fetching region features and division probabilities")
feats = self.ObjectFeatures(time_range).wait()
if with_div:
if not self.DivisionProbabilities.ready() or len(
self.DivisionProbabilities([0]).wait()[0]) == 0:
msgStr = "\nDivision classifier has not been trained! " + \
"Uncheck divisible objects if your objects don't divide or " + \
"go back to the Division Detection applet and train it."
raise DatasetConstraintError("Tracking", msgStr)
divProbs = self.DivisionProbabilities(time_range).wait()
if with_local_centers:
localCenters = self.RegionLocalCenters(time_range).wait()
if with_classifier_prior:
if not self.DetectionProbabilities.ready() or len(
self.DetectionProbabilities([0]).wait()[0]) == 0:
msgStr = "\nObject count classifier has not been trained! " + \
"Go back to the Object Count Classification applet and train it."
raise DatasetConstraintError("Tracking", msgStr)
detProbs = self.DetectionProbabilities(time_range).wait()
logger.info("filling traxelstore")
ts = pgmlink.TraxelStore()
fs = pgmlink.FeatureStore()
max_traxel_id_at = pgmlink.VectorOfInt()
filtered_labels = {}
obj_sizes = []
total_count = 0
empty_frame = False
for t in feats.keys():
rc = feats[t][default_features_key]['RegionCenter']
lower = feats[t][default_features_key]['Coord<Minimum>']
upper = feats[t][default_features_key]['Coord<Maximum>']
if rc.size:
rc = rc[1:, ...]
lower = lower[1:, ...]
upper = upper[1:, ...]
if with_opt_correction:
try:
rc_corr = feats[t][
config.features_vigra_name]['RegionCenter_corr']
except:
raise Exception, 'Can not consider optical correction since it has not been computed before'
if rc_corr.size:
rc_corr = rc_corr[1:, ...]
ct = feats[t][default_features_key]['Count']
if ct.size:
ct = ct[1:, ...]
logger.debug("at timestep {}, {} traxels found".format(
t, rc.shape[0]))
count = 0
filtered_labels_at = []
for idx in range(rc.shape[0]):
# for 2d data, set z-coordinate to 0:
if len(rc[idx]) == 2:
x, y = rc[idx]
z = 0
elif len(rc[idx]) == 3:
x, y, z = rc[idx]
else:
raise DatasetConstraintError(
"Tracking",
"The RegionCenter feature must have dimensionality 2 or 3."
)
size = ct[idx]
if (x < x_range[0] or x >= x_range[1] or y < y_range[0]
or y >= y_range[1] or z < z_range[0] or z >= z_range[1]
or size < size_range[0] or size >= size_range[1]):
filtered_labels_at.append(int(idx + 1))
continue
else:
count += 1
tr = pgmlink.Traxel()
tr.set_feature_store(fs)
tr.set_x_scale(x_scale)
tr.set_y_scale(y_scale)
tr.set_z_scale(z_scale)
tr.Id = int(idx + 1)
tr.Timestep = int(t)
# pgmlink expects always 3 coordinates, z=0 for 2d data
tr.add_feature_array("com", 3)
for i, v in enumerate([x, y, z]):
tr.set_feature_value('com', i, float(v))
tr.add_feature_array("CoordMinimum", 3)
for i, v in enumerate(lower[idx]):
tr.set_feature_value("CoordMinimum", i, float(v))
tr.add_feature_array("CoordMaximum", 3)
for i, v in enumerate(upper[idx]):
tr.set_feature_value("CoordMaximum", i, float(v))
if with_opt_correction:
tr.add_feature_array("com_corrected", 3)
for i, v in enumerate(rc_corr[idx]):
tr.set_feature_value("com_corrected", i, float(v))
if len(rc_corr[idx]) == 2:
tr.set_feature_value("com_corrected", 2, 0.)
if with_div:
tr.add_feature_array("divProb", 1)
# idx+1 because rc and ct start from 1, divProbs starts from 0
tr.set_feature_value("divProb", 0,
float(divProbs[t][idx + 1][1]))
if with_classifier_prior:
tr.add_feature_array("detProb", len(detProbs[t][idx + 1]))
for i, v in enumerate(detProbs[t][idx + 1]):
val = float(v)
if val < 0.0000001:
val = 0.0000001
if val > 0.99999999:
val = 0.99999999
tr.set_feature_value("detProb", i, float(val))
# FIXME: check whether it is 2d or 3d data!
if with_local_centers:
tr.add_feature_array("localCentersX",
len(localCenters[t][idx + 1]))
tr.add_feature_array("localCentersY",
len(localCenters[t][idx + 1]))
tr.add_feature_array("localCentersZ",
len(localCenters[t][idx + 1]))
for i, v in enumerate(localCenters[t][idx + 1]):
tr.set_feature_value("localCentersX", i, float(v[0]))
tr.set_feature_value("localCentersY", i, float(v[1]))
tr.set_feature_value("localCentersZ", i, float(v[2]))
tr.add_feature_array("count", 1)
tr.set_feature_value("count", 0, float(size))
if median_object_size is not None:
obj_sizes.append(float(size))
ts.add(fs, tr)
if len(filtered_labels_at) > 0:
filtered_labels[str(int(t) -
time_range[0])] = filtered_labels_at
logger.debug("at timestep {}, {} traxels passed filter".format(
t, count))
max_traxel_id_at.append(int(rc.shape[0]))
if count == 0:
empty_frame = True
total_count += count
if median_object_size is not None:
median_object_size[0] = np.median(np.array(obj_sizes),
overwrite_input=True)
logger.info('median object size = ' + str(median_object_size[0]))
self.FilteredLabels.setValue(filtered_labels, check_changed=True)
return fs, ts, empty_frame, max_traxel_id_at
def fillTraxels(self,
usePgmlink=True,
ts=None,
fs=None,
dispyNodeIps=[],
turnOffFeatures=[]):
"""
Compute all the features and predict object count as well as division probabilities.
Store the resulting information (and all other features) in the given pgmlink::TraxelStore,
or create a new one if ts=None.
usePgmlink: boolean whether pgmlink should be used and a pgmlink.TraxelStore and pgmlink.FeatureStore returned
ts: an initial pgmlink.TraxelStore (only used if usePgmlink=True)
fs: an initial pgmlink.FeatureStore (only used if usePgmlink=True)
returns (ts, fs) but only if usePgmlink=True, otherwise it fills self.TraxelsPerFrame
"""
if usePgmlink:
import pgmlink
if ts is None:
ts = pgmlink.TraxelStore()
fs = pgmlink.FeatureStore()
else:
assert (fs is not None)
getLogger().info("Extracting features...")
self._featuresPerFrame = self._extractAllFeatures(
dispyNodeIps=dispyNodeIps, turnOffFeatures=turnOffFeatures)
getLogger().info("Creating traxels...")
progressBar = ProgressBar(stop=len(self._featuresPerFrame))
progressBar.show(increase=0)
for frame, features in self._featuresPerFrame.iteritems():
# predict random forests
if self._countClassifier is not None:
objectCountProbabilities = self._countClassifier.predictProbabilities(
features=None, featureDict=features)
if self._divisionClassifier is not None and frame + 1 < self.timeRange[
1]:
divisionProbabilities = self._divisionClassifier.predictProbabilities(
features=None, featureDict=features)
# create traxels for all objects
for objectId in range(1, features.values()[0].shape[0]):
# print("Frame {} Object {}".format(frame, objectId))
pixelSize = features['Count'][objectId]
if pixelSize == 0 or (self._options.sizeFilter is not None \
and (pixelSize < self._options.sizeFilter[0] \
or pixelSize > self._options.sizeFilter[1])):
continue
# create traxel
if usePgmlink:
traxel = pgmlink.Traxel()
else:
traxel = Traxel()
traxel.Id = objectId
traxel.Timestep = frame
# add raw features
for key, val in features.iteritems():
if key == 'id':
traxel.idInSegmentation = val[objectId]
elif key == 'filename':
traxel.segmentationFilename = val[objectId]
else:
try:
if isinstance(
val,
list): # polygon feature returns a list!
featureValues = val[objectId]
else:
featureValues = val[objectId, ...]
except:
getLogger().error(
"Could not get feature values of {} for key {} from matrix with shape {}"
.format(objectId, key, val.shape))
raise AssertionError()
try:
self._setTraxelFeatureArray(
traxel, featureValues, key)
if key == 'RegionCenter':
self._setTraxelFeatureArray(
traxel, featureValues, 'com')
except:
getLogger().error(
"Could not add feature array {} for {}".format(
featureValues, key))
raise AssertionError()
# add random forest predictions
if self._countClassifier is not None:
self._setTraxelFeatureArray(
traxel, objectCountProbabilities[objectId, :],
self.detectionProbabilityFeatureName)
if self._divisionClassifier is not None and frame + 1 < self.timeRange[
1]:
self._setTraxelFeatureArray(
traxel, divisionProbabilities[objectId, :],
self.divisionProbabilityFeatureName)
# set other parameters
traxel.set_x_scale(self.x_scale)
traxel.set_y_scale(self.y_scale)
traxel.set_z_scale(self.z_scale)
if usePgmlink:
# add to pgmlink's traxelstore
ts.add(fs, traxel)
else:
self.TraxelsPerFrame.setdefault(frame,
{})[objectId] = traxel
progressBar.show()
if usePgmlink:
return ts, fs
