Add multi render.
This commit is contained in:
parent
2e4514dd4a
commit
26c823fa9b
4 changed files with 316 additions and 29 deletions
31
test/convert_to_vtk.py
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31
test/convert_to_vtk.py
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import pickle
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import vtk
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import os
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from stack3d.study.components import StudyData, MouseData, TimepointData
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import stack3d.formats.unet
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def skeleton_to_vtp(work_dir, study_collection):
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for eachStudy in study_collection:
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print "Converting Study: ", eachStudy.raw_data_path
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study_dir = work_dir + "/" + eachStudy.raw_data_path
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for eachMouse in eachStudy.mice:
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print "Converting Mouse: ", eachMouse.raw_data_path
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mouse_dir = study_dir + "/" + eachMouse.raw_data_path
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for eachTimePoint in eachMouse.timepoints:
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print "Converting Time: ", eachTimePoint.raw_data_path
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time_dir = mouse_dir + "/" + eachTimePoint.raw_data_path
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base_path = "/analysis_analysis/skeleton.pkl"
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if os.path.isfile(time_dir + base_path):
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output_path = os.path.dirname(os.path.realpath(time_dir + "/analysis_analysis/skeleton.vtp"))
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polydata = stack3d.formats.unet.skeleton_to_vtp(time_dir + base_path)
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writer = vtk.vtkXMLPolyDataWriter()
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writer.SetInputData(polydata)
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writer.SetFileName(output_path + "/skeleton.vtp")
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writer.Write()
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work_dir = "/scratch/jgrogan/stack-working/study/"
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f = open(work_dir + "/study_collection.p", 'r')
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study_collection = pickle.load(f)
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skeleton_to_vtp(work_dir, study_collection)
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114
test/get_tumour_stats.py
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114
test/get_tumour_stats.py
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import pickle
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import vtk
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import os
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import numpy as np
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import matplotlib.pyplot as plt
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from stack3d.study.components import StudyData, MouseData, TimepointData
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import stack3d.formats.unet
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def get_time(path):
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no_space = path.replace(" ", "")
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day_index = no_space.find("Day")
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day_string = no_space[day_index+3:day_index+5]
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day_string = day_string.replace("_", "")
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return int(day_string)
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def render_skeleton(work_dir, study_collection):
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for eachStudy in study_collection:
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print "Rendering Study: ", eachStudy.raw_data_path
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study_dir = work_dir + "/" + eachStudy.raw_data_path
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rad_fig, rad_ax = plt.subplots()
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line_fig, line_ax = plt.subplots()
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den_fig, den_ax = plt.subplots()
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for eachMouse in eachStudy.mice:
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print "Rendering Mouse: ", eachMouse.raw_data_path
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mouse_dir = study_dir + "/" + eachMouse.raw_data_path
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days = []
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radii = []
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lengths = []
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densities = []
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for eachTimePoint in eachMouse.timepoints:
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days.append(get_time(eachTimePoint.raw_data_path))
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if len(days) > 0:
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days, eachMouse.timepoints = (list(t) for t in zip(*sorted(zip(days, eachMouse.timepoints))))
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for kdx, eachTimePoint in enumerate(eachMouse.timepoints):
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print "Rendering Time: ", eachTimePoint.raw_data_path
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time_dir = mouse_dir + "/" + eachTimePoint.raw_data_path
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base_path = "/analysis_analysis/skeleton.vtp"
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if os.path.isfile(time_dir + base_path):
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reader = vtk.vtkXMLPolyDataReader()
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reader.SetFileName(time_dir + base_path)
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reader.Update()
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polydata = reader.GetOutput()
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for idx in range(polydata.GetNumberOfPoints()):
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loc = list(polydata.GetPoint(idx))
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loc[2] = 0
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polydata.GetPoints().SetPoint(idx, loc)
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lines = polydata.GetLines()
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points = polydata.GetPoints()
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length = 0.0
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for jdx in range(polydata.GetNumberOfCells()):
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pt_ids = vtk.vtkIdList()
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lines.GetCell(jdx, pt_ids)
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if pt_ids.GetNumberOfIds() == 2:
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pt0 = np.array(points.GetPoint(pt_ids.GetId(0)))
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pt1 = np.array(points.GetPoint(pt_ids.GetId(0)))
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length += np.linalg.norm(pt0-pt1)
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lengths.append(length)
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delaunay = vtk.vtkDelaunay2D()
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delaunay.SetInputData(polydata)
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delaunay.Update()
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com = vtk.vtkCenterOfMass()
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com.SetInputData(delaunay.GetOutput())
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com.SetUseScalarsAsWeights(False)
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com.Update()
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centre = com.GetCenter()
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feature = vtk.vtkFeatureEdges()
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feature.SetBoundaryEdges(1)
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feature.SetFeatureEdges(0)
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feature.SetNonManifoldEdges(0)
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feature.SetManifoldEdges(0)
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feature.SetInputData(delaunay.GetOutput())
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feature.Update()
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av_distance = 0.0
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for idx in range(feature.GetOutput().GetNumberOfPoints()):
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loc = feature.GetOutput().GetPoint(idx)
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av_distance += np.linalg.norm(np.array(centre)-np.array(loc))
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av_distance /= float(feature.GetOutput().GetNumberOfPoints())
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densities.append(length/(np.pi*av_distance*av_distance))
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print "d: ", days[kdx], "c: ", centre, "r: ", av_distance
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radii.append(av_distance)
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else:
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radii.append(0)
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rad_ax.plot(days, radii, lw=2.0, label=eachMouse.raw_data_path)
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line_ax.plot(days, lengths, lw=2.0, label=eachMouse.raw_data_path)
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den_ax.plot(days, densities, lw=2.0, label=eachMouse.raw_data_path)
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handles, labels = rad_ax.get_legend_handles_labels()
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rad_ax.legend(handles, labels)
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handles, labels = line_ax.get_legend_handles_labels()
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line_ax.legend(handles, labels)
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handles, labels = den_ax.get_legend_handles_labels()
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den_ax.legend(handles, labels)
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rad_fig.savefig(study_dir+"/timeline_radius.png", bbox_inches='tight', dpi=160)
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line_fig.savefig(study_dir+"/timeline_length.png", bbox_inches='tight', dpi=160)
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den_fig.savefig(study_dir+"/timeline_density.png", bbox_inches='tight', dpi=160)
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work_dir = "/scratch/jgrogan/stack-working/study/"
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f = open(work_dir + "/study_collection.p", 'r')
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study_collection = pickle.load(f)
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render_skeleton(work_dir, study_collection)
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@ -4,46 +4,91 @@ from PIL import Image
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from stack3d.study.components import StudyData, MouseData, TimepointData
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def get_time(path):
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no_space = path.replace(" ", "")
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day_index = no_space.find("Day")
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day_string = no_space[day_index+3:day_index+5]
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day_string = day_string.replace("_", "")
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return int(day_string)
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def merge_plots(work_dir, study_collection):
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plot_name = "diameterPlot"
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plot_name = "histogramDiameter"
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plot_name = "rendering"
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reduction_factor = 1
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reduction_factor2 = 1
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for eachStudy in study_collection:
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print "Merging Study: ", eachStudy.raw_data_path
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study_dir = work_dir + "/" + eachStudy.raw_data_path
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merge_paths = []
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for eachMouse in eachStudy.mice:
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print "Merging Mouse: ", eachMouse.raw_data_path
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mouse_dir = study_dir + "/" + eachMouse.raw_data_path
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image_paths = []
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# first sort time points
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days = []
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for eachTimePoint in eachMouse.timepoints:
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days.append(get_time(eachTimePoint.raw_data_path))
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if len(days) > 0:
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days, eachMouse.timepoints = (list(t) for t in zip(*sorted(zip(days, eachMouse.timepoints))))
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for eachTimePoint in eachMouse.timepoints:
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time_dir = mouse_dir + "/" + eachTimePoint.raw_data_path
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base_path = "/analysis_analysis/plots/vessels/diameterPlot.png"
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#base_path = "/analysis_analysis/plots/vessels/" + plot_name + ".png"
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base_path = "/analysis_analysis/histograms/" + plot_name + ".png"
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base_path = "/analysis_analysis//" + plot_name + ".tiff"
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if os.path.isfile(time_dir + base_path):
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image_paths.append(time_dir + base_path)
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images = map(Image.open, image_paths)
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merge_path = mouse_dir + "/timeline_diameterPlot.jpg"
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merge_path = mouse_dir + "/timeline_" + plot_name + ".jpg"
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merge_axis = 0
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print "Merging plots to: ", merge_path
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if len(images) > 0:
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widths, heights = zip(*(i.size for i in images))
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if merge_axis == 0:
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total_width = sum(widths)
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max_height = max(heights)
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new_im = Image.new('RGB', (total_width, max_height))
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x_offset = 0
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for im in images:
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new_im.paste(im, (x_offset, 0))
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x_offset += im.size[0]
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new_im.save(merge_path, optimize=True, quality=5)
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else:
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max_width = max(widths)
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total_height = sum(heights)
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new_im = Image.new('RGB', (max_width, total_height))
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y_offset = 0
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for im in images:
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new_im.paste(im, (0, y_offset))
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y_offset += im.size[1]
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new_im.save(merge_path, optimize=True, quality=5)
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if len(image_paths) > 0:
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widths = []
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heights = []
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for path in image_paths:
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im = Image.open(path)
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widths.append(im.size[0])
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heights.append(im.size[1])
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im.close()
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total_width = int(0.5*sum(widths))
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max_height = int(0.8*max(heights))
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new_im = Image.new('RGB', (total_width, max_height))
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x_offset = 0
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for path in image_paths:
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im = Image.open(path)
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img2 = im.crop((int(0.25*im.size[0]), int(0.2*im.size[1]), int(0.75*im.size[0]), im.size[1]))
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new_im.paste(img2, (x_offset, 0))
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x_offset += int(0.5*im.size[0])
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im.close()
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new_im.thumbnail((total_width/reduction_factor, max_height/reduction_factor))
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merge_paths.append(merge_path)
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new_im.save(merge_path)
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if len(merge_paths) > 0:
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widths = []
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heights = []
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for path in merge_paths:
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im = Image.open(path)
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widths.append(im.size[0])
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heights.append(im.size[1])
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im.close()
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max_width = max(widths)
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total_height = sum(heights)
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new_im = Image.new('RGB', (max_width, total_height))
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y_offset = 0
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for path in merge_paths:
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im = Image.open(path)
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new_im.paste(im, (0, y_offset))
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y_offset += im.size[1]
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im.close()
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new_im.thumbnail((max_width/reduction_factor2, total_height/reduction_factor2))
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new_im.save(study_dir + "/timeline_" + plot_name + ".jpg")
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work_dir = "/scratch/jgrogan/stack-working/study/"
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import pickle
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import vtk
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import os
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from stack3d.study.components import StudyData, MouseData, TimepointData
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import stack3d.formats.unet
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path = "/home/grogan/stack-working/skeleton.pkl"
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network_vtk = stack3d.formats.unet.skeleton_to_vtp(path)
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writer = vtk.vtkXMLPolyDataWriter()
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writer.SetInputData(network_vtk)
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writer.SetFileName("/home/grogan/test.vtp")
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writer.Write()
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def render_skeleton(work_dir, study_collection):
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for eachStudy in study_collection:
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print "Rendering Study: ", eachStudy.raw_data_path
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study_dir = work_dir + "/" + eachStudy.raw_data_path
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for eachMouse in eachStudy.mice:
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print "Rendering Mouse: ", eachMouse.raw_data_path
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mouse_dir = study_dir + "/" + eachMouse.raw_data_path
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for eachTimePoint in eachMouse.timepoints:
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print "Rendering Time: ", eachTimePoint.raw_data_path
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time_dir = mouse_dir + "/" + eachTimePoint.raw_data_path
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base_path = "/analysis_analysis/skeleton.vtp"
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if os.path.isfile(time_dir + base_path):
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reader = vtk.vtkXMLPolyDataReader()
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reader.SetFileName(time_dir + base_path)
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reader.Update()
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polydata = reader.GetOutput()
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cell_to_point = vtk.vtkCellDataToPointData()
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cell_to_point.SetInputData(polydata)
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cell_to_point.Update()
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tubes = vtk.vtkTubeFilter()
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tubes.SetInputData(cell_to_point.GetOutput())
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tubes.SetNumberOfSides(6)
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tubes.SetRadius(1.0)
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tubes.SetRadiusFactor(50.0)
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tubes.SetVaryRadiusToVaryRadiusByScalar()
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tubes.Update()
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mapper = vtk.vtkPolyDataMapper()
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mapper.SetInputData(tubes.GetOutput())
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mapper.ScalarVisibilityOff()
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actor = vtk.vtkActor()
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actor.SetMapper(mapper)
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actor.GetProperty().SetColor(1, 0, 0)
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textActor = vtk.vtkTextActor()
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textActor.SetTextScaleModeToProp()
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textActor.SetDisplayPosition(400, 50)
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inp_string = "Study: " + eachStudy.raw_data_path
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inp_string += " | Mouse: " + eachMouse.raw_data_path
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inp_string += " | Time: " + eachTimePoint.raw_data_path
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textActor.SetInput(inp_string)
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tprop = textActor.GetTextProperty()
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tprop.SetFontSize(24)
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tprop.SetFontFamilyToArial()
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tprop.SetJustificationToCentered()
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tprop.BoldOn()
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tprop.ItalicOn()
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tprop.ShadowOn()
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tprop.SetColor(0, 0, 1)
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cubesource = vtk.vtkCubeSource()
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cubesource.SetBounds(0, 4000, 0, 4000, 0, 70)
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cubesource.Update()
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cube_mapper = vtk.vtkPolyDataMapper()
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cube_mapper.SetInputConnection(cubesource.GetOutputPort())
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cube_mapper.ScalarVisibilityOff()
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cube_actor = vtk.vtkActor()
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cube_actor.SetMapper(cube_mapper)
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cube_actor.GetProperty().SetColor(0, 0, 0)
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cube_actor.GetProperty().SetOpacity(0.1)
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# Create a renderer, render window, and interactor
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renderer = vtk.vtkRenderer()
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renderer.SetBackground(1, 1, 1)
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renderer.AddActor2D(textActor)
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#renderer.GetActiveCamera().Zoom(1.0)
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renderWindow = vtk.vtkRenderWindow()
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renderWindow.SetSize(1200, 800)
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renderWindow.SetAlphaBitPlanes(1)
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renderWindow.AddRenderer(renderer)
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# renderWindowInteractor = vtk.vtkRenderWindowInteractor()
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# renderWindowInteractor.SetRenderWindow(renderWindow)
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# Add the actors to the scene
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renderer.AddActor(actor)
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renderer.AddActor(cube_actor)
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renderer.ResetCameraClippingRange()
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# Render and interact
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renderWindow.Render()
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#renderWindowInteractor.Start()
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window_to_image_filter = vtk.vtkWindowToImageFilter()
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window_to_image_filter.SetInput(renderWindow)
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window_to_image_filter.SetMagnification(1);
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window_to_image_filter.SetInputBufferTypeToRGBA()
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window_to_image_filter.ReadFrontBufferOff()
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writer = vtk.vtkTIFFWriter()
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writer.SetInputConnection(window_to_image_filter.GetOutputPort())
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writer.SetFileName(time_dir + "/analysis_analysis/rendering.tiff")
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writer.Write()
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work_dir = "/scratch/jgrogan/stack-working/study/"
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f = open(work_dir + "/study_collection.p", 'r')
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study_collection = pickle.load(f)
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render_skeleton(work_dir, study_collection)
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