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testUI2.py
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# -*- coding: utf-8 -*-
"""
Created on Mon Aug 21 17:43:44 2017
test UI
@author: st
"""
import sys
import numpy as np
import os
import csv
import SimpleITK as sitk
import operator
import pandas as pd
#import sun_radiomics as srad
from radiomics import featureextractor
import collections
from sklearn import preprocessing
from sklearn.preprocessing import Imputer
import time
class testUI():
''' tst '''
def __init__(self):
'''
Args:
image: Input image
tumour_mask: Binary image containing the GTV
Returns: dict containing the features for the image
'''
self.ls_images = []
# (self.image_path.text())
self.strPath = '/media/panda/panda/1.radiomics/3.data/1/'
self.params = '/media/panda/panda/0.git/pyradiomics/pyradiomics/examples/exampleSettings/exampleMR_NoResampling.yaml'
self.csv_path = '/media/panda/panda/1.radiomics/2.codes/survival_data.csv'
self.save_path = '/media/panda/panda/0.git/radiomics/features/'
lsFiles = os.listdir(self.strPath)
# load the images
for files in lsFiles:
# print(files)
self.tmpFiles = self.strPath + files
def read_survival_csv(self):
'''read the survival information and age of the patient'''
self.ls_survival = []
# read the csv file
with open(self.csv_path) as cf:
spreader = csv.reader(cf, delimiter=',', quotechar='\'')
for row in spreader:
if not 'Age' in row: # remove the csv file title
self.ls_survival.append(row)
def read_images(self):
ls_images = []
lsFiles = os.listdir(self.strPath)
# load the images
for files in lsFiles: #[0:1]
tmpFiles = self.strPath + files
images = os.listdir(tmpFiles)
ls_tmp = [0, 0, 0, 0, 0]
for img in images:
# the order : t1, t1ce, t2, flair, seg
paths = tmpFiles + '/' + img
if '_t1.' in img:
ls_tmp[0] = paths
elif '_t1ce.' in img:
ls_tmp[1] = paths
elif '_t2.' in img:
ls_tmp[2] = paths
elif '_flair.' in img:
ls_tmp[3] = paths
elif '_seg.' in img:
ls_tmp[4] = paths
ls_images.append(ls_tmp)
return ls_images
def make_masks(self, image_seg):
'''get the mask from the initial segmentation files, 1, 2, 4 stands for different regions'''
mask4 = image_seg==4
mask2 = image_seg==2
mask1 = image_seg==1
mask21 = mask2 + mask1
mask41 = mask4 + mask1
mask42 = mask4 + mask2
mask421 = mask4 + mask2 + mask1
# mask4 = sitk.BinaryThreshold(
# image_seg, lowerThreshold=3.9, upperThreshold=5.0)
# mask42 = sitk.BinaryThreshold(
# image_seg, lowerThreshold=1.9, upperThreshold=5.0)
# mask421 = sitk.BinaryThreshold(
# image_seg, lowerThreshold=0.9, upperThreshold=5.0)
return mask1, mask2, mask4, mask21, mask41, mask42, mask421
def normalization(self):
'''ds'''
# missing values
X = np.array(self.ls_features)
imp = Imputer(missing_values="NaN", strategy="mean", axis=0)
imp.fit(X)
# normalization
X_normalize = preprocessing.normalize(X[:,:-1], norm = 'l2')
X_train = np.concatenate((X[:,:-1], X_normalize), axis=1)
Y_train = X[:,-1:]
pa = self.save_path + 'normalized.csv'
df = pd.DataFrame(X_train)
df.to_csv(pa, header=False)
def save_feature(self):
'''save files'''
pa = self.save_path + 'features.csv'
(pd.DataFrame.from_dict(data = self.dict_features, orient = 'index').to_csv(pa, header=False))
def extract_one_image(self, items, mask):
'''extract the features'''
image_t1 = sitk.ReadImage(items[0])
image_t1ce = sitk.ReadImage(items[1])
image_t2 = sitk.ReadImage(items[2])
image_flair = sitk.ReadImage(items[3])
ls_tmp_feature = []
extractor = featureextractor.RadiomicsFeaturesExtractor(self.params)
result1 = extractor.execute(image_t1, mask)
result2 = extractor.execute(image_t1ce, mask)
result3 = extractor.execute(image_t2, mask)
result4 = extractor.execute(image_flair, mask)
ls_tmp_feature.extend([v for v in result1.values()][7:])
ls_tmp_feature.extend([v for v in result2.values()][7:])
ls_tmp_feature.extend([v for v in result3.values()][7:])
ls_tmp_feature.extend([v for v in result4.values()][7:])
return ls_tmp_feature
def is_feature_calculated(self, items):
for keys in self.ls_survival:
if keys[0] in items[0]:
pa = self.save_path + keys[0] + '.csv'
return os.path.exists(pa)
def save_one_feature(self, ls_feature, filename):
pa = self.save_path + filename + '.csv'
df = pd.DataFrame(ls_feature)
df.to_csv(pa, header=False)
def get_one_radiomics(self, items, title = False):
start = time.clock()
print(items[0])
image_seg = sitk.ReadImage(items[4])
mask1, mask2, mask4, mask21, mask41, mask42, mask421 = self.make_masks(image_seg)
# sitk.WriteImage(image_seg, '/media/panda/panda/seg.nii.gz')
# sitk.WriteImage(mask4, '/media/panda/panda/mask4.nii.gz')
# sitk.WriteImage(mask2, '/media/panda/panda/mask2.nii.gz')
# sitk.WriteImage(mask1, '/media/panda/panda/mask1.nii.gz')
# sitk.WriteImage(mask42, '/media/panda/panda/mask42.nii.gz')
# sitk.WriteImage(mask41, '/media/panda/panda/mask41.nii.gz')
# sitk.WriteImage(mask421, '/media/panda/panda/mask421.nii.gz')
# sitk.WriteImage(mask21, '/media/panda/panda/mask21.nii.gz')
# sitk.WriteImage(image_t1, '/media/panda/panda/t1.nii.gz')
# sitk.WriteImage(image_t1ce, '/media/panda/panda/t1ce.nii.gz')
# sitk.WriteImage(image_t2, '/media/panda/panda/t2.nii.gz')
# sitk.WriteImage(image_flair, '/media/panda/panda/flair.nii.gz')
ls_temp = []
ls_1 = self.extract_one_image(items,mask1)
print(1)
ls_2 = self.extract_one_image(items,mask2)
print(2)
ls_4 = self.extract_one_image(items,mask4)
print(3)
ls_21 = self.extract_one_image(items,mask21)
print(4)
ls_41 = self.extract_one_image(items,mask41)
print(5)
ls_42 = self.extract_one_image(items,mask42)
print(6)
ls_421 = self.extract_one_image(items,mask421)
print(7)
ls_temp.extend(ls_1)
ls_temp.extend(ls_2)
ls_temp.extend(ls_4)
ls_temp.extend(ls_21)
ls_temp.extend(ls_41)
ls_temp.extend(ls_42)
ls_temp.extend(ls_421)
for keys in self.ls_survival:
if keys[0] in items[0]:
ls_temp.append(keys[1])
ls_temp.append(keys[2])
# self.dict_features[keys[0]] = [np.float64(v) for v in ls_temp]
tmp = [np.float64(v) for v in ls_temp]
self.save_one_feature(tmp, keys[0])
self.ls_features.append(tmp)
if title:
ls_title = []
ls_title.extend([v for v in result41.keys()])
# ls_title.extend([v for v in result42.keys()][7:])
# ls_title.extend([v for v in result43.keys()][7:])
# ls_title.extend([v for v in result44.keys()][7:])
# ls_title.extend([v for v in result421.keys()][7:])
# ls_title.extend([v for v in result422.keys()][7:])
# ls_title.extend([v for v in result423.keys()][7:])
# ls_title.extend([v for v in result424.keys()][7:])
# ls_title.extend([v for v in result4211.keys()][7:])
# ls_title.extend([v for v in result4212.keys()][7:])
# ls_title.extend([v for v in result4213.keys()][7:])
# ls_title.extend([v for v in result4214.keys()][7:])
self.dict_features['title'] = ls_title
stop = time.clock()
print('seconds time :')
print(stop - start)
def testRadiomics(self):
self.dict_features = dict()
self.dict_all = dict()
self.ls_features = []
ls_images = self.read_images()
# calculate the image features
n = 0
for items in ls_images:
print('s')
if self.is_feature_calculated(items) == False:
self.get_one_radiomics(items, title = False)
#self.save_feature()
else:
print('calated')
n += 1
print(n)
te = testUI()
te.read_survival_csv()
te.testRadiomics()
te.normalization()