def generate_limit_labels(imp, limits, cb_fraction, params):
"""generate text ROIs in correct positions to label colorbar"""
rois = []
w = imp.getWidth()
h = imp.getHeight()
txt_h_px = float(h) / 15
txt_sz_pt = int(round((18.0 / 24.0) * txt_h_px))
for limit in limits:
roi = TextRoi(1, 1, str(round(limit, 3)),
Font("SansSerif", Font.ITALIC, txt_sz_pt))
roi.setJustification(TextRoi.RIGHT)
roi.setFillColor(Color.BLACK)
roi.setStrokeColor(Color.WHITE)
rois.append(roi)
roim = RoiManager(False)
roim.reset()
imp.show()
mbui.autoset_zoom(imp)
for fridx in range(1, imp.getNSlices() + 1):
imp.setPosition(fridx)
roi_uu = rois[1].clone()
xpos = w - cb_fraction * w - float(w) / 100 - rois[1].getFloatWidth()
roi_uu.setLocation(xpos, 1)
imp.setRoi(roi_uu)
roim.addRoi(roi_uu)
roi_ll = rois[0].clone()
roi_ll.setLocation(xpos, h - rois[0].getFloatHeight())
imp.setRoi(roi_ll)
roim.addRoi(roi_ll)
roim.runCommand("Show All")
FileSaver(imp).saveAsTiff(
os.path.join(params.output_path,
"overlaid curvature nudged labels.tif"))
# nudge positions
roim.reset()
imp.killRoi()
for fridx in range(1, imp.getNSlices() + 1):
imp.setPosition(fridx)
roi_uu = rois[1].clone()
xpos = w - cb_fraction * w - float(w) / 100
roi_uu.setLocation(xpos, 1)
imp.setRoi(roi_uu)
roim.addRoi(roi_uu)
roi_ll = rois[0].clone()
roi_ll.setLocation(xpos, h - rois[0].getFloatHeight())
imp.setRoi(roi_ll)
roim.addRoi(roi_ll)
roim.runCommand("Show All")
FileSaver(imp).saveAsTiff(
os.path.join(params.output_path, "overlaid curvature.tif"))
return imp
def main():
# ensure consistent preference settings
Prefs.blackBackground = False
# get locations for previous and new outputs
params = Parameters()
params.loadLastParams()
output_folder_old, output_folder = mbio.rerun_location_chooser(
params.input_image_path)
params.loadParametersFromJson(
os.path.join(output_folder_old, 'parameters used.json'))
params.setOutputPath(output_folder)
# present user with the familiar setup UI, with options that don't make sense/aren't yet implemented disabled
params = mbui.analysis_parameters_gui(rerun_analysis=True, params=params)
# get original image file (for overlays etc.)
if not os.path.isfile(params.input_image_path):
mbui.warning_dialog([
"The original data can't be found at the location specified in saved parameters. ",
"(Possibly something as simple as a change in network drive mapping has occurred)",
"Please specify the location of the original image file..."
])
params.setInputImagePath(
mbio.input_file_location_chooser(params.output_path))
import_opts, params = mbui.choose_series(params.input_image_path, params)
imps = bf.openImagePlus(import_opts)
imp = imps[0]
if imp.getNSlices() > 1:
mbui.warning_dialog([
"More than one Z plane detected.",
"I will do a maximum projection before proceeding", "Continue?"
])
imp = ZProjector.run(imp, "max all")
params = mbio.get_metadata(params)
params.setCurvatureLengthUm(
round(params.curvature_length_um / params.pixel_physical_size) *
params.pixel_physical_size)
params.persistParameters()
IJ.run(imp, "Set Scale...", "distance=0 known=0 pixel=1 unit=pixel")
imp.show()
if imp.getNChannels() > 1:
imp.setPosition(params.membrane_channel_number, 1, 1)
mbui.autoset_zoom(imp)
IJ.run("Enhance Contrast", "saturated=0.35")
# prompt user to select ROI
original_imp = Duplicator().run(imp)
_, crop_params = mbui.crop_to_ROI(imp, params)
imp.show()
if crop_params is not None:
params.perform_spatial_crop = True
mbui.autoset_zoom(imp)
imp.updateAndDraw()
review_crop = mb.check_cropping(output_folder_old, params)
keep_crop = not review_crop
if review_crop:
keep_crop = mbui.crop_review()
if not keep_crop:
imp.changes = False
imp.close()
imp = original_imp
else:
original_imp.close()
else:
original_imp.close()
# prompt user to do time cropping
imp, start_end_tuple = mbui.time_crop(imp, params)
params.setTimeCropStartEnd(start_end_tuple)
# import edges
membrane_edges = mbio.load_qcd_edges2(
os.path.join(output_folder_old, "user_defined_edges.zip"))
mbio.save_qcd_edges2(membrane_edges, params.output_path)
calculated_objects = CalculatedObjects()
calculated_objects.membrane_edges = membrane_edges
if params.time_crop_start_end[0] is not None:
calculated_objects.timelist = [
idx * params.frame_interval
for idx in range(params.time_crop_start_end[0],
params.time_crop_start_end[1] + 1)
]
else:
calculated_objects.timelist = [
idx * params.frame_interval for idx in range(imp.getNFrames())
]
split_channels = mbfs.split_image_plus(imp, params)
membrane_channel_imp = split_channels[0]
actin_channel_imp = split_channels[1]
segmentation_channel_imp = None
if params.photobleaching_correction:
if os.path.isfile(
os.path.join(output_folder_old, 'binary_membrane_stack.tif')):
segmentation_binary_path = os.path.join(
output_folder_old, 'binary_membrane_stack.tif')
segmentation_channel_imp = IJ.openImage(segmentation_binary_path)
else:
segmentation_channel_imp = split_channels[2]
segmentation_channel_imp = mb.make_and_clean_binary(
segmentation_channel_imp, params.threshold_method)
split_channels[2] = segmentation_channel_imp
calculated_objects = mbfs.calculate_outputs(params, calculated_objects,
split_channels)
# output colormapped images and kymographs
fig_imp_list = mbfs.generate_and_save_figures(imp, calculated_objects,
params, membrane_channel_imp,
segmentation_channel_imp)
mbfs.save_csvs(calculated_objects, params)
params.saveParametersToJson(
os.path.join(params.output_path, "parameters used.json"))
imp.changes = False
IJ.setTool("zoom")
if params.close_on_completion:
for fig_imp in fig_imp_list:
fig_imp.close()
imp.close()
return
def main():
### debug ###############################################################
#print (sys.version_info);
#print(sys.path);
#file_path = "D:\\data\\Inverse blebbing\\MAX_2dpf marcksl1b-EGFP inj_TgLifeact-mCh_movie e4_split-bleb1.tif";
#output_root = "D:\\data\\Inverse blebbing\\output";
#from datetime import datetime
#timestamp = datetime.strftime(datetime.now(), '%Y-%m-%d %H-%M-%S');
#output_folder = os.path.join(output_root, (timestamp + ' output'));
#os.mkdir(output_folder);
########################################################################
# ensure consistent preference settings
Prefs.blackBackground = False;
# prompt user for input parameters
params = mbui.analysis_parameters_gui();
# prompt user for file locations
file_path, output_folder = mbio.file_location_chooser(params.input_image_path);
params.setInputImagePath(file_path);
params.setOutputPath(output_folder);
# get image file
import_opts, params = mbui.choose_series(file_path, params);
imps = bf.openImagePlus(import_opts);
imp = imps[0];
# catch unexpected image dimensions - for now, project in Z...:
if imp.getNSlices() > 1:
mbui.warning_dialog(["More than one Z plane detected.",
"I will do a maximum projection before proceeding",
"Continue?"]);
imp = ZProjector.run(imp,"max all");
params = mbio.get_metadata(params);
params.setCurvatureLengthUm(round(params.curvature_length_um / params.pixel_physical_size) * params.pixel_physical_size);
params.persistParameters();
IJ.run(imp, "Set Scale...", "distance=0 known=0 pixel=1 unit=pixel");
imp.show();
if imp.getNChannels() > 1:
imp.setPosition(params.membrane_channel_number, 1, 1);
mbui.autoset_zoom(imp);
IJ.run("Enhance Contrast", "saturated=0.35");
# prompt user to select ROI
original_imp, crop_params = mbui.crop_to_ROI(imp, params);
if crop_params is not None:
params.perform_spatial_crop = True;
mbui.autoset_zoom(imp);
else:
params.perform_spatial_crop = False;
# prompt user to do time cropping
imp, start_end_tuple = mbui.time_crop(imp, params);
params.setTimeCropStartEnd(start_end_tuple);
repeats = 1;
inner_outer_comparisons = None;
if params.inner_outer_comparison:
inner_outer_comparisons = InnerOuterComparisonData();
repeats = 2;
IJ.selectWindow(imp.getTitle());
IJ.run("Enhance Contrast", "saturated=0.35");
for r in range(0, repeats):
calculated_objects = CalculatedObjects();
if params.time_crop_start_end[0] is not None:
calculated_objects.timelist = [idx * params.frame_interval for idx in range(params.time_crop_start_end[0], params.time_crop_start_end[1]+1)]
else:
calculated_objects.timelist = [idx * params.frame_interval for idx in range(imp.getNFrames())];
calculated_objects, params, split_channels = mbfs.generate_edges(imp, params, calculated_objects, (r+1)/repeats);
membrane_channel_imp = split_channels[0];
actin_channel_imp = split_channels[1];
segmentation_channel_imp = split_channels[2];
calculated_objects = mbfs.calculate_outputs(params,
calculated_objects,
split_channels,
repeat_fraction=(r+1)/repeats);
# output colormapped images and kymographs
fig_imp_list = mbfs.generate_and_save_figures(imp, calculated_objects, params, membrane_channel_imp, segmentation_channel_imp);
mbfs.save_csvs(calculated_objects, params);
params.saveParametersToJson(os.path.join(params.output_path, "parameters used.json"));
imp.changes = False;
IJ.setTool("zoom");
if params.close_on_completion or (params.inner_outer_comparison and r!=(repeats-1)):
for fig_imp in fig_imp_list:
fig_imp.close();
elif params.close_on_completion and (r==(repeats-1)):
imp.close();
if params.inner_outer_comparison:
tname = "Time, " + params.interval_unit;
output_folder = os.path.dirname(params.output_path);
profile = [[((inner, outer), (float(outer)/inner)) for inner, outer in zip(calculated_objects.inner_outer_data.inner_means, calculated_objects.inner_outer_data.outer_means)]];
mbio.save_profile_as_csv(profile,
os.path.join(output_folder, "Intensity ratios.csv"),
"outer/inner",
xname="inner",
yname="outer",
tname=tname,
time_list=calculated_objects.timelist);
sd_profile = [[((inner, outer), (float(outer)/inner)) for inner, outer in zip(calculated_objects.inner_outer_data.inner_sds, calculated_objects.inner_outer_data.outer_sds)]];
mbio.save_profile_as_csv(profile,
os.path.join(output_folder, "Intensity standard deviation ratios.csv"),
"outer sd/inner sd",
xname="inner sd",
yname="outer sd",
tname=tname,
time_list=calculated_objects.timelist);
return;
def main():
# ensure consistent preference settings
Prefs.blackBackground = False;
# get locations for previous and new outputs
params = Parameters();
params.loadLastParams();
output_folder_old, output_folder = mbio.rerun_location_chooser(params.input_image_path);
params.loadParametersFromJson(os.path.join(output_folder_old, 'parameters used.json'));
params.setOutputPath(output_folder);
# get original image file (for overlays etc.)
if not os.path.isfile(params.input_image_path):
mbui.warning_dialog(["The original data can't be found at the location specified in saved parameters. ",
"(Possibly something as simple as a change in network drive mapping has occurred)",
"Please specify the location of the original image file..."]);
params.setInputImagePath(mbio.input_file_location_chooser(params.output_path));
import_opts, params = mbui.choose_series(params.input_image_path, params);
imps = bf.openImagePlus(import_opts);
imp = imps[0];
if imp.getNSlices() > 1:
mbui.warning_dialog(["More than one Z plane detected.",
"I will do a maximum projection before proceeding",
"Continue?"]);
imp = ZProjector.run(imp,"max all");
# prompt user to select ROI
original_imp = Duplicator().run(imp);
_, crop_params = mbui.crop_to_ROI(imp, params);
imp.show();
if crop_params is not None:
params.perform_spatial_crop = True;
mbui.autoset_zoom(imp);
imp.updateAndDraw();
review_crop = mb.check_cropping(output_folder_old, params);
keep_crop = not review_crop;
if review_crop:
keep_crop = mbui.crop_review();
if not keep_crop:
imp.changes = False;
imp.close();
imp = original_imp;
else:
original_imp.close();
else:
original_imp.close();
# prompt user to do time cropping
imp, start_end_tuple = mbui.time_crop(imp, params);
params.setTimeCropStartEnd(start_end_tuple);
params = mbio.get_metadata(params);
params.setCurvatureLengthUm(round(params.curvature_length_um / params.pixel_physical_size) * params.pixel_physical_size);
params.persistParameters();
IJ.run(imp, "Set Scale...", "distance=0 known=0 pixel=1 unit=pixel");
imp.show();
if imp.getNChannels() > 1:
imp.setPosition(params.membrane_channel_number, 1, 1);
mbui.autoset_zoom(imp);
IJ.run("Enhance Contrast", "saturated=0.35");
split_channels = mbfs.split_image_plus(imp, params);
membrane_test_channel_imp = Duplicator().run(split_channels[0]);
segmentation_channel_imp = split_channels[-1];
# import edges
imp.hide();
membrane_edges = mbio.load_qcd_edges2(os.path.join(output_folder_old, "user_defined_edges.zip"));
dummy_anchors = [params.manual_anchor_positions for _ in membrane_edges]
membrane_edges, fixed_anchors = mbui.perform_user_qc(membrane_test_channel_imp, membrane_edges, membrane_edges, dummy_anchors, params);
imp.show();
rgbstack = ImageStack(imp.getWidth(), imp.getHeight());
for tidx in range(imp.getNFrames()):
imp.setT(tidx+1);
ip = imp.getProcessor();
rgbip = ip.convertToRGB();
rgbstack.addSlice(rgbip);
rgbimp = ImagePlus(("RGB " + imp.getTitle()), rgbstack);
imp.close();
rgbimp.show();
IJ.run("Colors...", "foreground=yellow background=white selection=yellow");
for tidx in range(rgbimp.getNSlices()):
rgbimp.setSlice(tidx+1);
rgbimp.setRoi(membrane_edges[tidx]);
IJ.run(rgbimp, "Draw", "slice");
IJ.run("Colors...", "foreground=red background=white selection=yellow");
for tidx in range(rgbimp.getNSlices()):
rgbimp.setSlice(tidx+1);
for anchor in params.manual_anchor_positions:
rgbimp.setRoi(PointRoi(anchor[0], anchor[1]));
IJ.run(rgbimp, "Draw", "slice");
params.saveParametersToJson(os.path.join(params.output_path, "parameters used.json"));
params.persistParameters();
rgbimp.changes = False;