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nnUNet_calvingfront_detection / nnunet /experiment_planning /summarize_plans.py

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	# Copyright 2020 Division of Medical Image Computing, German Cancer Research Center (DKFZ), Heidelberg, Germany
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	from batchgenerators.utilities.file_and_folder_operations import *
	from nnunet.paths import preprocessing_output_dir


	# This file is intended to double check nnUNets design choices. It is intended to be used for developent purposes only
	def summarize_plans(file):
	plans = load_pickle(file)
	print("num_classes: ", plans['num_classes'])
	print("modalities: ", plans['modalities'])
	print("use_mask_for_norm", plans['use_mask_for_norm'])
	print("keep_only_largest_region", plans['keep_only_largest_region'])
	print("min_region_size_per_class", plans['min_region_size_per_class'])
	print("min_size_per_class", plans['min_size_per_class'])
	print("normalization_schemes", plans['normalization_schemes'])
	print("stages...\n")

	for i in range(len(plans['plans_per_stage'])):
	print("stage: ", i)
	print(plans['plans_per_stage'][i])
	print("")


	def write_plans_to_file(f, plans_file):
	print(plans_file)
	a = load_pickle(plans_file)
	stages = list(a['plans_per_stage'].keys())
	stages.sort()
	for stage in stages:
	patch_size_in_mm = [i * j for i, j in zip(a['plans_per_stage'][stages[stage]]['patch_size'],
	a['plans_per_stage'][stages[stage]]['current_spacing'])]
	median_patient_size_in_mm = [i * j for i, j in zip(a['plans_per_stage'][stages[stage]]['median_patient_size_in_voxels'],
	a['plans_per_stage'][stages[stage]]['current_spacing'])]
	f.write(plans_file.split("/")[-2])
	f.write(";%s" % plans_file.split("/")[-1])
	f.write(";%d" % stage)
	f.write(";%s" % str(a['plans_per_stage'][stages[stage]]['batch_size']))
	f.write(";%s" % str(a['plans_per_stage'][stages[stage]]['num_pool_per_axis']))
	f.write(";%s" % str(a['plans_per_stage'][stages[stage]]['patch_size']))
	f.write(";%s" % str([str("%03.2f" % i) for i in patch_size_in_mm]))
	f.write(";%s" % str(a['plans_per_stage'][stages[stage]]['median_patient_size_in_voxels']))
	f.write(";%s" % str([str("%03.2f" % i) for i in median_patient_size_in_mm]))
	f.write(";%s" % str([str("%03.2f" % i) for i in a['plans_per_stage'][stages[stage]]['current_spacing']]))
	f.write(";%s" % str([str("%03.2f" % i) for i in a['plans_per_stage'][stages[stage]]['original_spacing']]))
	f.write(";%s" % str(a['plans_per_stage'][stages[stage]]['pool_op_kernel_sizes']))
	f.write(";%s" % str(a['plans_per_stage'][stages[stage]]['conv_kernel_sizes']))
	f.write(";%s" % str(a['data_identifier']))
	f.write("\n")


	if __name__ == "__main__":
	base_dir = './'#preprocessing_output_dir''
	task_dirs = [i for i in subdirs(base_dir, join=False, prefix="Task") if i.find("BrainTumor") == -1 and i.find("MSSeg") == -1]
	print("found %d tasks" % len(task_dirs))

	with open("2019_02_06_plans_summary.csv", 'w') as f:
	f.write("task;plans_file;stage;batch_size;num_pool_per_axis;patch_size;patch_size(mm);median_patient_size_in_voxels;median_patient_size_in_mm;current_spacing;original_spacing;pool_op_kernel_sizes;conv_kernel_sizes\n")
	for t in task_dirs:
	print(t)
	tmp = join(base_dir, t)
	plans_files = [i for i in subfiles(tmp, suffix=".pkl", join=False) if i.find("_plans_") != -1 and i.find("Dgx2") == -1]
	for p in plans_files:
	write_plans_to_file(f, join(tmp, p))
	f.write("\n")