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prepare_datasets_DRIVE.py
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prepare_datasets_DRIVE.py
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#==========================================================
#
# This prepare the hdf5 datasets of the DRIVE database
#
#============================================================
import os
import h5py
import numpy as np
from PIL import Image
def write_hdf5(arr,outfile):
with h5py.File(outfile,"w") as f:
f.create_dataset("image", data=arr, dtype=arr.dtype)
#------------Path of the images --------------------------------------------------------------
#train
original_imgs_train = "./DRIVE/training/images/"
groundTruth_imgs_train = "./DRIVE/training/1st_manual/"
borderMasks_imgs_train = "./DRIVE/training/mask/"
#test
original_imgs_test = "./DRIVE/test/images/"
groundTruth_imgs_test = "./DRIVE/test/1st_manual/"
borderMasks_imgs_test = "./DRIVE/test/mask/"
#---------------------------------------------------------------------------------------------
Nimgs = 20
channels = 3
height = 584
width = 565
dataset_path = "./DRIVE_datasets_training_testing/"
def get_datasets(imgs_dir,groundTruth_dir,borderMasks_dir,train_test="null"):
imgs = np.empty((Nimgs,height,width,channels))
groundTruth = np.empty((Nimgs,height,width))
border_masks = np.empty((Nimgs,height,width))
for path, subdirs, files in os.walk(imgs_dir): #list all files, directories in the path
for i in range(len(files)):
#original
print "original image: " +files[i]
img = Image.open(imgs_dir+files[i])
imgs[i] = np.asarray(img)
#corresponding ground truth
groundTruth_name = files[i][0:2] + "_manual1.gif"
print "ground truth name: " + groundTruth_name
g_truth = Image.open(groundTruth_dir + groundTruth_name)
groundTruth[i] = np.asarray(g_truth)
#corresponding border masks
border_masks_name = ""
if train_test=="train":
border_masks_name = files[i][0:2] + "_training_mask.gif"
elif train_test=="test":
border_masks_name = files[i][0:2] + "_test_mask.gif"
else:
print "specify if train or test!!"
exit()
print "border masks name: " + border_masks_name
b_mask = Image.open(borderMasks_dir + border_masks_name)
border_masks[i] = np.asarray(b_mask)
print "imgs max: " +str(np.max(imgs))
print "imgs min: " +str(np.min(imgs))
assert(np.max(groundTruth)==255 and np.max(border_masks)==255)
assert(np.min(groundTruth)==0 and np.min(border_masks)==0)
print "ground truth and border masks are correctly withih pixel value range 0-255 (black-white)"
#reshaping for my standard tensors
imgs = np.transpose(imgs,(0,3,1,2))
assert(imgs.shape == (Nimgs,channels,height,width))
groundTruth = np.reshape(groundTruth,(Nimgs,1,height,width))
border_masks = np.reshape(border_masks,(Nimgs,1,height,width))
assert(groundTruth.shape == (Nimgs,1,height,width))
assert(border_masks.shape == (Nimgs,1,height,width))
return imgs, groundTruth, border_masks
#getting the training datasets
imgs_train, groundTruth_train, border_masks_train = get_datasets(original_imgs_train,groundTruth_imgs_train,borderMasks_imgs_train,"train")
print "saving train datasets"
write_hdf5(imgs_train, dataset_path + "DRIVE_dataset_imgs_train.hdf5")
write_hdf5(groundTruth_train, dataset_path + "DRIVE_dataset_groundTruth_train.hdf5")
write_hdf5(border_masks_train,dataset_path + "DRIVE_dataset_borderMasks_train.hdf5")
#getting the testing datasets
imgs_test, groundTruth_test, border_masks_test = get_datasets(original_imgs_test,groundTruth_imgs_test,borderMasks_imgs_test,"test")
print "saving test datasets"
write_hdf5(imgs_test,dataset_path + "DRIVE_dataset_imgs_test.hdf5")
write_hdf5(groundTruth_test, dataset_path + "DRIVE_dataset_groundTruth_test.hdf5")
write_hdf5(border_masks_test,dataset_path + "DRIVE_dataset_borderMasks_test.hdf5")