Add initial batch processing and do some tidying.
This commit is contained in:
parent
00fa3da2eb
commit
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34 changed files with 446 additions and 119 deletions
17
.project
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17
.project
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<?xml version="1.0" encoding="UTF-8"?>
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<projectDescription>
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<name>Stack3D</name>
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<comment></comment>
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<projects>
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</projects>
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<buildSpec>
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<buildCommand>
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<name>org.python.pydev.PyDevBuilder</name>
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<arguments>
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</arguments>
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</buildCommand>
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</buildSpec>
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<natures>
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<nature>org.python.pydev.pythonNature</nature>
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</natures>
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</projectDescription>
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8
.pydevproject
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8
.pydevproject
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<?xml version="1.0" encoding="UTF-8" standalone="no"?>
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<?eclipse-pydev version="1.0"?><pydev_project>
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<pydev_pathproperty name="org.python.pydev.PROJECT_SOURCE_PATH">
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<path>/${PROJECT_DIR_NAME}</path>
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</pydev_pathproperty>
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<pydev_property name="org.python.pydev.PYTHON_PROJECT_VERSION">python 2.7</pydev_property>
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<pydev_property name="org.python.pydev.PYTHON_PROJECT_INTERPRETER">Default</pydev_property>
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</pydev_project>
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2
.settings/org.eclipse.core.resources.prefs
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2
.settings/org.eclipse.core.resources.prefs
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eclipse.preferences.version=1
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encoding//src/stack3d/formats/ome_schema.py=utf-8
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@ -1,44 +0,0 @@
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"""
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Reader for the MATLAB vessel network format provided by Russel Bates (russell.bates@new.ox.ac.uk)
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"""
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from argparse import ArgumentParser
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import scipy.io
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import numpy as np
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def compare(x, y):
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return (x[0] == y[0]) and (x[1] == y[1]) and (x[2] == y[2])
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def convert_to_vtk(mat):
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"""
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Convert the format to VTK
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"""
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nodes = []
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edges = []
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for idx, eachConnectedComponent in enumerate(mat["Vessels"][0]):
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adjacency = eachConnectedComponent['Adj']
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branches = eachConnectedComponent['Branch'][0][0][0]
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if idx ==0:
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for kdx, eachBranch in enumerate(branches):
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if kdx <200:
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for jdx, eachPoint in enumerate(eachBranch['Points'][0][0]):
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nodes.append(np.array(eachPoint))
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for idx, eachEntry in enumerate(nodes):
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for jdx, eachOtherEntry in enumerate(nodes):
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if idx!=jdx:
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if compare(eachEntry, eachOtherEntry):
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print eachEntry, eachOtherEntry, idx, jdx
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break
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#nodes.append(eachBranch['Points'][0][0][0])
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#print eachBranch['Points'][0][0][0]
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#adjacency_indices = adjacency[0][0].nonzero()
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#print adjacency_indices[0]
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mat = scipy.io.loadmat('/home/grogan/Vessels.mat', struct_as_record=True)
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convert_to_vtk(mat)
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136
src/stack3d/formats/unet.py
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136
src/stack3d/formats/unet.py
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""" Format conversion for Russ Bate's unet format.
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"""
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from __future__ import print_function
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import inspect
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import os
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import csv
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from subprocess import call
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from argparse import ArgumentParser
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import scipy.io
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import networkx as nx
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import stack3d.formats
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def load_skeleton(path):
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"""
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Load the skeleton from a pickle
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"""
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# Delayed import so script can be run with both Python 2 and 3
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from unet_core.vessel_analysis import VesselTree
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v = VesselTree()
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v.load_skeleton(path)
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return v.skeleton
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def skeleton_to_vtp(path):
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temp_output_path = os.path.dirname(os.path.realpath(path)) + "/temp_network_csv.csv"
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script_path = inspect.getfile(stack3d.formats.unet).replace(".pyc", ".py")
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launch_args = " --input '" + path + "' --output '" + temp_output_path + "' --format csv --field diameter"
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call("python3 " + script_path + launch_args, shell=True)
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# Avoid vtk import when method not used to reduce dependency overhead
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import vtk
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polydata = vtk.vtkPolyData()
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points = vtk.vtkPoints()
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cells = vtk.vtkCellArray()
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data = vtk.vtkDoubleArray()
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with open(temp_output_path, 'rb') as csvfile:
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reader = csv.reader(csvfile, delimiter=',', quotechar='|')
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counter = 0
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first = 0
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for row in reader:
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if first == 0:
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first += 1
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continue
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point0 = [float(x) for x in row[0:3]]
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point1 = [float(x) for x in row[3:6]]
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diameter = float(row[6])
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points.InsertNextPoint(point0)
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points.InsertNextPoint(point1)
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line = vtk.vtkLine()
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line.GetPointIds().SetId(0, counter)
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line.GetPointIds().SetId(1, counter+1)
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counter += 2
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cells.InsertNextCell(line)
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data.InsertNextTuple1(diameter)
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polydata.SetPoints(points)
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polydata.SetLines(cells)
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polydata.GetCellData().SetScalars(data)
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clean = vtk.vtkCleanPolyData()
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clean.SetInputData(polydata)
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clean.Update()
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return clean.GetOutput()
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def skeleton_to_matlab(skeleton, field, output_path):
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"""
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Convert the skeleton's network description to matlab sparse matrix format.
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Each mat file corresponds to a connected component
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"""
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# if os.path.isabs(output_path) and not os.path.exists(output_path):
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# os.makedirs(output_path)
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for idx, component in enumerate(skeleton.components):
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for n, nbrs in component.graph.adjacency_iter():
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for nbr, edict in nbrs.items():
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branch = edict[0]["branch"]
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component.graph.add_edge(n, nbr, weight=branch.diameter)
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scipy_mat = nx.to_scipy_sparse_matrix(component.graph)
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output = {"skeleton": scipy_mat}
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output_file = output_path + "/skeleton_" + field + "_Comp_" + str(idx) + ".mat"
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scipy.io.savemat(output_file, output)
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def skeleton_to_csv(skeleton, output_path):
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"""
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Convert the skeleton's network description to csv format
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"""
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# if os.path.isabs(output_path) and not os.path.exists(output_path):
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# os.makedirs(output_path)
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f = open(output_path, "w")
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f.write("P0 - x, P0 - y, P0 - z, P1 - x, P1 - y, P1 - z, diameter")
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for _, _, branch in skeleton.skeleton_branch_iter():
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for idx, p1 in enumerate(branch.points):
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if idx > 0:
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p0 = branch.points[idx-1]
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p0_s = str(p0.x) + "," + str(p0.y) + "," + str(p0.z)
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p1_s = str(p1.x) + "," + str(p1.y) + "," + str(p1.z)
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f.write(p0_s + "," + p1_s + "," + str(branch.diameter) + "\n")
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f.close()
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if __name__ == "__main__":
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parser = ArgumentParser()
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parser.add_argument('--input', type=str, help='Input skeleton file.')
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parser.add_argument('--output', type=str, help='Output directory.')
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parser.add_argument('--format', type=str,
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help='Output format.',
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choices=['csv', 'mat'],
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default='mat')
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parser.add_argument('--field', type=str,
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help='Output field.',
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choices=['diameter', "length", "tortuosity"],
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default='diameter')
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args = parser.parse_args()
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skeleton = load_skeleton(args.input)
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if "csv" in args.format:
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skeleton_to_csv(skeleton, args.output)
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elif "mat" in args.format:
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skeleton_to_matlab(skeleton, args.field, args.output)
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@ -1,3 +1,4 @@
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"""
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Conversion of IMS/LSM/CZI files to OME and then Generic TIFFs
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"""
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0
src/stack3d/study/__init__.py
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0
src/stack3d/study/__init__.py
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22
src/stack3d/study/components.py
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src/stack3d/study/components.py
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class TimepointData(object):
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def __init__(self):
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self.raw_data_path = None
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class MouseData(object):
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def __init__(self):
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self.raw_data_path = None
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self.extra_path = ""
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self.timepoints = []
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class StudyData(object):
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def __init__(self):
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self.raw_data_path = None
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self.mice = []
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0
src/stack3d/viewing/__init__.py
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0
src/stack3d/viewing/__init__.py
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@ -9,10 +9,10 @@ import mp_color_map
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def get_ox_map():
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files = ["/home/grogan/oxygen_solution_loc_0.vti",
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"/home/grogan/oxygen_solution_loc_1.vti",
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files = ["/home/grogan/oxygen_solution_loc_1.vti",
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"/home/grogan/oxygen_solution_loc_2.vti",
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"/home/grogan/oxygen_solution_loc_3.vti"]
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"/home/grogan/oxygen_solution_loc_3.vti",
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"/home/grogan/oxygen_solution_loc_4.vti"]
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offsets = [(0.0,0.0), (40.0, 0.0), (40.0, 40.0), (0.0, 40.0)]
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ox_actors = []
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ox_actor = vtk.vtkActor()
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ox_actor.SetMapper(ox_mapper)
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ox_actor.GetProperty().SetColor(0.0, 1.0, 0.0)
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ox_actor.GetProperty().SetOpacity(0.5)
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ox_actor.GetProperty().SetOpacity(0.8)
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ox_actors.append(ox_actor)
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scale_bar = vtk.vtkScalarBarActor()
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scale_bar.SetLookupTable(scaled_ctf);
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#scale_bar.SetTitle("Oxygen Tension (mmHg)");
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scale_bar.SetTitle(".");
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scale_bar.SetOrientationToVertical();
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scale_bar.GetPositionCoordinate().SetCoordinateSystemToNormalizedViewport();
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scale_bar.GetPositionCoordinate().SetValue(0.23, 0.27);
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scale_bar.GetTitleTextProperty().SetFontSize(15)
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scale_bar.GetLabelTextProperty().SetFontSize(15)
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scale_bar.GetTitleTextProperty().SetColor(1.0, 1.0, 1.0);
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scale_bar.GetLabelTextProperty().SetColor(1.0, 1.0, 1.0);
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scale_bar.GetLabelTextProperty().SetColor(0.0, 0.0, 0.0);
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return ox_actors, scale_bar
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input_files.append(image_path + "/"+eachFile)
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renderer = vtk.vtkRenderer()
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renderer.SetBackground(20.0/255.0,30.0/255.0,48.0/255.0);
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renderer.SetBackground2(36.0/255.0,59.0/255.0,85.0/255.0);
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renderer.SetBackground(1.0,1.0,1.0);
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for eachImage in input_files:
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reader= vtk.vtkXMLImageDataReader()
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@ -198,7 +197,7 @@ def render_image(image_path, threshold = 20.0):
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opacity_transfer_func.AddPoint(0, 0.0 )
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opacity_transfer_func.AddPoint(threshold-1.0, 0.0 )
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#opacity_transfer_func.AddPoint(threshold, 1.0 )
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opacity_transfer_func.AddPoint(255.0, 0.1 )
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opacity_transfer_func.AddPoint(255.0, 1.0 )
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volume_properties = vtk.vtkVolumeProperty()
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volume_properties.SetColor( color_transfer_func )
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@ -230,7 +229,9 @@ def render_image(image_path, threshold = 20.0):
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render_window.AddRenderer(renderer)
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window_interactor.SetRenderWindow(render_window)
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render_window.SetSize(170, 177)
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render_window.SetSize(1200, 800)
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render_window.SetAlphaBitPlanes(1)
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render_window.Render()
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ox_actors, scale_bar_actor = get_ox_map()
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#renderer.AddActor(scale_bar_actor)
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@ -247,14 +248,16 @@ def render_image(image_path, threshold = 20.0):
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window_to_image_filter = vtk.vtkWindowToImageFilter()
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window_to_image_filter.SetInput(render_window)
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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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extension = ".tiff"
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writer.SetInputConnection(window_to_image_filter.GetOutputPort())
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writer.SetFileName("vtk_animation_0"+extension)
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writer.Write()
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num_samples = 1
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num_samples = 2
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for idx in range(num_samples):
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if idx==0:
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@ -264,38 +267,42 @@ def render_image(image_path, threshold = 20.0):
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renderer.GetActiveCamera().OrthogonalizeViewUp()
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#time.sleep(0.02)
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#renderer.GetActiveCamera().Dolly(1.002))
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#renderer.GetActiveCamera().Elevation(-1.0)
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renderer.GetActiveCamera().Dolly(1.002)
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renderer.ResetCameraClippingRange()
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render_window.Render()
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window_to_image_filter.Modified()
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writer.SetFileName("vtk_animation_"+str(idx+1)+extension)
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writer.Write()
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renderer.AddActor(scale_bar_actor)
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renderer.RemoveActor(ox_actors[0])
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render_window.Render()
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window_to_image_filter.Modified()
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writer.SetFileName("vtk_animation_"+str(num_samples+1)+extension)
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writer.Write()
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cell_actors = add_cells()
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renderer.AddActor(cell_actors[0])
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render_window.Render()
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window_to_image_filter.Modified()
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writer.SetFileName("vtk_animation_"+str(num_samples+2)+extension)
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writer.Write()
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renderer.RemoveActor(cell_actors[0])
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renderer.AddActor(cell_actors[1])
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render_window.Render()
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window_to_image_filter.Modified()
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writer.SetFileName("vtk_animation_"+str(num_samples+3)+extension)
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writer.Write()
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renderer.RemoveActor(cell_actors[1])
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renderer.AddActor(cell_actors[2])
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render_window.Render()
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window_to_image_filter.Modified()
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writer.SetFileName("vtk_animation_"+str(num_samples+4)+extension)
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writer.Write()
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# window_to_image_filter.Modified()
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# writer.SetFileName("vtk_animation_"+str(num_samples+1)+extension)
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# writer.Write()
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#
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# cell_actors = add_cells()
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# renderer.AddActor(cell_actors[0])
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# render_window.Render()
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# window_to_image_filter.Modified()
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# writer.SetFileName("vtk_animation_"+str(num_samples+2)+extension)
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# writer.Write()
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# renderer.RemoveActor(cell_actors[0])
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#
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# renderer.AddActor(cell_actors[1])
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# render_window.Render()
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# window_to_image_filter.Modified()
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# writer.SetFileName("vtk_animation_"+str(num_samples+3)+extension)
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# writer.Write()
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# renderer.RemoveActor(cell_actors[1])
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#
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# renderer.AddActor(cell_actors[2])
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# render_window.Render()
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# window_to_image_filter.Modified()
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# writer.SetFileName("vtk_animation_"+str(num_samples+4)+extension)
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# writer.Write()
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window_interactor.Start()
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52
test/merge_plots.py
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52
test/merge_plots.py
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import os
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import pickle
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from PIL import Image
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from stack3d.study.components import StudyData, MouseData, TimepointData
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def merge_plots(work_dir, study_collection):
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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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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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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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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_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:
|
||||
new_im.paste(im, (x_offset, 0))
|
||||
x_offset += im.size[0]
|
||||
new_im.save(merge_path, optimize=True, quality=5)
|
||||
else:
|
||||
max_width = max(widths)
|
||||
total_height = sum(heights)
|
||||
new_im = Image.new('RGB', (max_width, total_height))
|
||||
y_offset = 0
|
||||
for im in images:
|
||||
new_im.paste(im, (0, y_offset))
|
||||
y_offset += im.size[1]
|
||||
new_im.save(merge_path, optimize=True, quality=5)
|
||||
|
||||
|
||||
work_dir = "/scratch/jgrogan/stack-working/study/"
|
||||
f = open(work_dir + "/study_collection.p", 'r')
|
||||
study_collection = pickle.load(f)
|
||||
merge_plots(work_dir, study_collection)
|
10
test/render_networks.py
Normal file
10
test/render_networks.py
Normal file
|
@ -0,0 +1,10 @@
|
|||
import vtk
|
||||
import stack3d.formats.unet
|
||||
|
||||
path = "/home/grogan/stack-working/skeleton.pkl"
|
||||
network_vtk = stack3d.formats.unet.skeleton_to_vtp(path)
|
||||
|
||||
writer = vtk.vtkXMLPolyDataWriter()
|
||||
writer.SetInputData(network_vtk)
|
||||
writer.SetFileName("/home/grogan/test.vtp")
|
||||
writer.Write()
|
55
test/skeleton_to_mat.py
Normal file
55
test/skeleton_to_mat.py
Normal file
|
@ -0,0 +1,55 @@
|
|||
import os
|
||||
import inspect
|
||||
import pickle
|
||||
from subprocess import call
|
||||
from PIL import Image
|
||||
import vtk
|
||||
import scipy.sparse as sps
|
||||
from scipy.io import savemat
|
||||
from stack3d.study.components import StudyData, MouseData, TimepointData
|
||||
import stack3d.formats.unet
|
||||
|
||||
|
||||
def vtk_to_mat(polydata, path):
|
||||
|
||||
num_points = polydata.GetNumberOfPoints()
|
||||
sps_acc = sps.coo_matrix((num_points, num_points))
|
||||
data = []
|
||||
row_indices = []
|
||||
column_indices = []
|
||||
lines = polydata.GetLines()
|
||||
vtk_data = polydata.GetCellData().GetScalars()
|
||||
|
||||
print "np: ", num_points
|
||||
for idx in range(lines.GetNumberOfCells()):
|
||||
points = vtk.vtkIdList()
|
||||
lines.GetCell(idx, points)
|
||||
if points.GetNumberOfIds() == 2:
|
||||
row_indices.append(points.GetId(0))
|
||||
column_indices.append(points.GetId(1))
|
||||
data.append(vtk_data.GetTuple1(idx))
|
||||
sps_acc = sps_acc + sps.coo_matrix((data, (row_indices, column_indices)), shape=(num_points, num_points))
|
||||
savemat(path, {'skeleton': sps_acc})
|
||||
|
||||
|
||||
def skeleton_to_mat(work_dir, study_collection):
|
||||
|
||||
for eachStudy in study_collection:
|
||||
print "Converting Study: ", eachStudy.raw_data_path
|
||||
study_dir = work_dir + "/" + eachStudy.raw_data_path
|
||||
for eachMouse in eachStudy.mice:
|
||||
print "Converting Mouse: ", eachMouse.raw_data_path
|
||||
mouse_dir = study_dir + "/" + eachMouse.raw_data_path
|
||||
for eachTimePoint in eachMouse.timepoints:
|
||||
print "Converting Time: ", eachTimePoint.raw_data_path
|
||||
time_dir = mouse_dir + "/" + eachTimePoint.raw_data_path
|
||||
base_path = "/analysis_analysis/skeleton.pkl"
|
||||
if os.path.isfile(time_dir + base_path):
|
||||
output_path = os.path.dirname(os.path.realpath(time_dir + "/analysis_analysis/skeleton_distance.mat"))
|
||||
polydata = stack3d.formats.unet.skeleton_to_vtp(time_dir + base_path)
|
||||
vtk_to_mat(polydata, output_path)
|
||||
|
||||
work_dir = "/scratch/jgrogan/stack-working/study/"
|
||||
f = open(work_dir + "/study_collection.p", 'r')
|
||||
study_collection = pickle.load(f)
|
||||
skeleton_to_mat(work_dir, study_collection)
|
97
test/study_setup.py
Normal file
97
test/study_setup.py
Normal file
|
@ -0,0 +1,97 @@
|
|||
import os
|
||||
import pickle
|
||||
from distutils.dir_util import copy_tree
|
||||
from shutil import copyfile
|
||||
from stack3d.study.components import StudyData, MouseData, TimepointData
|
||||
|
||||
|
||||
def setup_study_collection_from_remote(path):
|
||||
|
||||
"""Scan the remote directory structure. Remote needs to be mounted first
|
||||
with Samba etc."""
|
||||
|
||||
study_collection = []
|
||||
study_dirs = next(os.walk(path))[1]
|
||||
|
||||
for study_dir in study_dirs:
|
||||
new_study = StudyData()
|
||||
new_study.raw_data_path = study_dir
|
||||
print "Set up study: ", study_dir
|
||||
mouse_dirs = next(os.walk(path + "/" + study_dir))[1]
|
||||
for mouse_dir in mouse_dirs:
|
||||
new_mouse = MouseData()
|
||||
new_mouse.raw_data_path = mouse_dir
|
||||
print "Set up mouse: ", mouse_dir
|
||||
|
||||
cumulative_path = path + "/" + study_dir + "/" + mouse_dir
|
||||
if os.path.isdir(cumulative_path + "/Outputs_new_model"):
|
||||
new_mouse.extra_path = "/Outputs_new_model/"
|
||||
elif os.path.isdir(cumulative_path + "/Outputs"):
|
||||
new_mouse.extra_path = "/Outputs/"
|
||||
timepoint_dirs = next(os.walk(cumulative_path + new_mouse.extra_path))[1]
|
||||
for timepoint_dir in timepoint_dirs:
|
||||
if "TIF" not in timepoint_dir:
|
||||
new_timepoint = TimepointData()
|
||||
new_timepoint.raw_data_path = timepoint_dir
|
||||
new_mouse.timepoints.append(new_timepoint)
|
||||
new_study.mice.append(new_mouse)
|
||||
study_collection.append(new_study)
|
||||
return study_collection
|
||||
|
||||
|
||||
def setup_local_study_directory_structure(path, study_collection):
|
||||
|
||||
for eachStudy in study_collection:
|
||||
study_dir = path + "/" + eachStudy.raw_data_path
|
||||
if not os.path.exists(study_dir):
|
||||
os.makedirs(study_dir)
|
||||
for eachMouse in eachStudy.mice:
|
||||
mouse_dir = study_dir + "/" + eachMouse.raw_data_path
|
||||
if not os.path.exists(mouse_dir):
|
||||
os.makedirs(mouse_dir)
|
||||
for eachTimePoint in eachMouse.timepoints:
|
||||
time_dir = mouse_dir + "/" + eachTimePoint.raw_data_path
|
||||
if not os.path.exists(time_dir):
|
||||
os.makedirs(time_dir)
|
||||
|
||||
|
||||
def copy_files(remote_path, local_path, study_collection):
|
||||
|
||||
for eachStudy in study_collection:
|
||||
print "Copying Study: ", eachStudy.raw_data_path
|
||||
remote_study_dir = remote_path + "/" + eachStudy.raw_data_path
|
||||
local_study_dir = local_path + "/" + eachStudy.raw_data_path
|
||||
for eachMouse in eachStudy.mice:
|
||||
print "Copying Mouse: ", eachMouse.raw_data_path
|
||||
remote_mouse_dir = remote_study_dir + "/" + eachMouse.raw_data_path
|
||||
local_mouse_dir = local_study_dir + "/" + eachMouse.raw_data_path
|
||||
for eachTimePoint in eachMouse.timepoints:
|
||||
remote_time_dir = remote_mouse_dir + eachMouse.extra_path + "/" + eachTimePoint.raw_data_path
|
||||
local_time_dir = local_mouse_dir + "/" + eachTimePoint.raw_data_path
|
||||
|
||||
if os.path.isdir(remote_time_dir + "/analysis_analysis"):
|
||||
groups = ["csv", "histograms", "plots"]
|
||||
for group in groups:
|
||||
if os.path.isdir(remote_time_dir + "/analysis_analysis/" + group):
|
||||
copy_tree(remote_time_dir + "/analysis_analysis/" + group,
|
||||
local_time_dir + "/analysis_analysis/" + group)
|
||||
|
||||
if os.path.isfile(remote_time_dir + "/analysis_analysis/skeleton.pkl"):
|
||||
copyfile(remote_time_dir + "/analysis_analysis/skeleton.pkl",
|
||||
local_time_dir + "/analysis_analysis/skeleton.pkl")
|
||||
#
|
||||
work_dir = "/scratch/jgrogan/stack-working/study/"
|
||||
|
||||
samba_path = os.environ["XDG_RUNTIME_DIR"] + "/gvfs/"
|
||||
raw_data_path = samba_path + "smb-share:server=imcore1.rob.ox.ac.uk,share=maths"
|
||||
raw_data_path += "/Window Experiments/James/Network analysis/"
|
||||
|
||||
# study_collection = setup_study_collection_from_remote(raw_data_path)
|
||||
# f = open(work_dir + "/study_collection.p", "wb")
|
||||
# pickle.dump(study_collection, f)
|
||||
|
||||
f = open(work_dir + "/study_collection.p", 'r')
|
||||
study_collection = pickle.load(f)
|
||||
|
||||
#setup_local_study_directory_structure(work_dir, study_collection)
|
||||
copy_files(raw_data_path, work_dir, study_collection)
|
36
utility.py
36
utility.py
|
@ -1,36 +0,0 @@
|
|||
"""
|
||||
Utilities for logging, parallel execution
|
||||
"""
|
||||
|
||||
import os
|
||||
import logging
|
||||
|
||||
def do_setup(tool_name = None):
|
||||
|
||||
out_directory = os.getcwd() + "/Stack3D_Logging/"
|
||||
if not os.path.exists(out_directory):
|
||||
os.makedirs(out_directory)
|
||||
if tool_name is not None:
|
||||
filename = out_directory + tool_name + ".log"
|
||||
else:
|
||||
filename = out_directory + "/root.log"
|
||||
|
||||
logging.basicConfig(level=logging.DEBUG,
|
||||
format='%(asctime)s %(name)-12s %(levelname)-8s %(message)s',
|
||||
datefmt='%m-%d %H:%M',
|
||||
filename=filename,
|
||||
filemode='w')
|
||||
|
||||
console = logging.StreamHandler()
|
||||
console.setLevel(logging.INFO)
|
||||
|
||||
# set a format which is simpler for console use
|
||||
formatter = logging.Formatter('%(name)-12s: %(levelname)-8s %(message)s')
|
||||
|
||||
# tell the handler to use this format
|
||||
console.setFormatter(formatter)
|
||||
|
||||
# add the handler to the root logger
|
||||
logging.getLogger('').addHandler(console)
|
||||
|
||||
|
Loading…
Reference in a new issue