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sbb_pixelwise_segmentation
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integrating first working classification training model

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unifying-training-models
vahidrezanezhad 3 weeks ago
parent d27647a0f1
commit dbb84507ed
5 changed files with 410 additions and 149 deletions
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20
config_params.json
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@ -1,13 +1,15 @@
{
"model_name" : "hybrid_transformer_cnn",
"model_name" : "resnet50_unet",
"task": "classification",
"n_classes" : 2,
"n_epochs" : 2,
"input_height" : 448,
"input_width" : 448,
"n_epochs" : 7,
"input_height" : 224,
"input_width" : 224,
"weight_decay" : 1e-6,
"n_batch" : 2,
"n_batch" : 6,
"learning_rate": 1e-4,
"patches" : true,
"f1_threshold_classification": 0.8,
"patches" : false,
"pretraining" : true,
"augmentation" : false,
"flip_aug" : false,
@ -33,7 +35,7 @@
"weighted_loss": false,
"is_loss_soft_dice": false,
"data_is_provided": false,
"dir_train": "/train",
"dir_eval": "/eval",
"dir_output": "/out"
"dir_train": "/home/vahid/Downloads/image_classification_data/train",
"dir_eval": "/home/vahid/Downloads/image_classification_data/eval",
"dir_output": "/home/vahid/Downloads/image_classification_data/output"
}

69
models.py
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@ -400,7 +400,7 @@ def vit_resnet50_unet(n_classes,patch_size, num_patches, input_height=224,input_
f5 = x
if pretraining:
model = keras.Model(inputs, x).load_weights(resnet50_Weights_path)
model = Model(inputs, x).load_weights(resnet50_Weights_path)
num_patches = x.shape[1]*x.shape[2]
patches = Patches(patch_size)(x)
@ -468,6 +468,71 @@ def vit_resnet50_unet(n_classes,patch_size, num_patches, input_height=224,input_
o = (BatchNormalization(axis=bn_axis))(o)
o = (Activation('softmax'))(o)
model = keras.Model(inputs=inputs, outputs=o)
model = Model(inputs=inputs, outputs=o)
return model
def resnet50_classifier(n_classes,input_height=224,input_width=224,weight_decay=1e-6,pretraining=False):
include_top=True
assert input_height%32 == 0
assert input_width%32 == 0
img_input = Input(shape=(input_height,input_width , 3 ))
if IMAGE_ORDERING == 'channels_last':
bn_axis = 3
else:
bn_axis = 1
x = ZeroPadding2D((3, 3), data_format=IMAGE_ORDERING)(img_input)
x = Conv2D(64, (7, 7), data_format=IMAGE_ORDERING, strides=(2, 2),kernel_regularizer=l2(weight_decay), name='conv1')(x)
f1 = x
x = BatchNormalization(axis=bn_axis, name='bn_conv1')(x)
x = Activation('relu')(x)
x = MaxPooling2D((3, 3) , data_format=IMAGE_ORDERING , strides=(2, 2))(x)
x = conv_block(x, 3, [64, 64, 256], stage=2, block='a', strides=(1, 1))
x = identity_block(x, 3, [64, 64, 256], stage=2, block='b')
x = identity_block(x, 3, [64, 64, 256], stage=2, block='c')
f2 = one_side_pad(x )
x = conv_block(x, 3, [128, 128, 512], stage=3, block='a')
x = identity_block(x, 3, [128, 128, 512], stage=3, block='b')
x = identity_block(x, 3, [128, 128, 512], stage=3, block='c')
x = identity_block(x, 3, [128, 128, 512], stage=3, block='d')
f3 = x
x = conv_block(x, 3, [256, 256, 1024], stage=4, block='a')
x = identity_block(x, 3, [256, 256, 1024], stage=4, block='b')
x = identity_block(x, 3, [256, 256, 1024], stage=4, block='c')
x = identity_block(x, 3, [256, 256, 1024], stage=4, block='d')
x = identity_block(x, 3, [256, 256, 1024], stage=4, block='e')
x = identity_block(x, 3, [256, 256, 1024], stage=4, block='f')
f4 = x
x = conv_block(x, 3, [512, 512, 2048], stage=5, block='a')
x = identity_block(x, 3, [512, 512, 2048], stage=5, block='b')
x = identity_block(x, 3, [512, 512, 2048], stage=5, block='c')
f5 = x
if pretraining:
Model(img_input, x).load_weights(resnet50_Weights_path)
x = AveragePooling2D((7, 7), name='avg_pool')(x)
x = Flatten()(x)
##
x = Dense(256, activation='relu', name='fc512')(x)
x=Dropout(0.2)(x)
##
x = Dense(n_classes, activation='softmax', name='fc1000')(x)
model = Model(img_input, x)
return model

1
requirements.txt
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@ -6,3 +6,4 @@ tqdm
imutils
numpy
scipy
scikit-learn

356
train.py
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@ -11,6 +11,7 @@ from metrics import *
from tensorflow.keras.models import load_model
from tqdm import tqdm
import json
from sklearn.metrics import f1_score
def configuration():
@ -73,6 +74,8 @@ def config_params():
is_loss_soft_dice = False # Use soft dice as loss function. When set to true, "weighted_loss" must be false.
weighted_loss = False # Use weighted categorical cross entropy as loss fucntion. When set to true, "is_loss_soft_dice" must be false.
data_is_provided = False # Only set this to true when you have already provided the input data and the train and eval data are in "dir_output".
task = "segmentation" # This parameter defines task of model which can be segmentation, enhancement or classification.
f1_threshold_classification = None # This threshold is used to consider models with an evaluation f1 scores bigger than it. The selected model weights undergo a weights ensembling. And avreage ensembled model will be written to output.
@ex.automain
@ -86,162 +89,239 @@ def run(_config, n_classes, n_epochs, input_height,
scaling_brightness, scaling_binarization, rotation, rotation_not_90,
thetha, scaling_flip, continue_training, transformer_patchsize,
num_patches_xy, model_name, flip_index, dir_eval, dir_output,
pretraining, learning_rate):
pretraining, learning_rate, task, f1_threshold_classification):
num_patches = num_patches_xy[0]*num_patches_xy[1]
if data_is_provided:
dir_train_flowing = os.path.join(dir_output, 'train')
dir_eval_flowing = os.path.join(dir_output, 'eval')
if task == "segmentation":
num_patches = num_patches_xy[0]*num_patches_xy[1]
if data_is_provided:
dir_train_flowing = os.path.join(dir_output, 'train')
dir_eval_flowing = os.path.join(dir_output, 'eval')
dir_flow_train_imgs = os.path.join(dir_train_flowing, 'images')
dir_flow_train_labels = os.path.join(dir_train_flowing, 'labels')
dir_flow_train_imgs = os.path.join(dir_train_flowing, 'images')
dir_flow_train_labels = os.path.join(dir_train_flowing, 'labels')
dir_flow_eval_imgs = os.path.join(dir_eval_flowing, 'images')
dir_flow_eval_labels = os.path.join(dir_eval_flowing, 'labels')
dir_flow_eval_imgs = os.path.join(dir_eval_flowing, 'images')
dir_flow_eval_labels = os.path.join(dir_eval_flowing, 'labels')
configuration()
configuration()
else:
dir_img, dir_seg = get_dirs_or_files(dir_train)
dir_img_val, dir_seg_val = get_dirs_or_files(dir_eval)
else:
dir_img, dir_seg = get_dirs_or_files(dir_train)
dir_img_val, dir_seg_val = get_dirs_or_files(dir_eval)
# make first a directory in output for both training and evaluations in order to flow data from these directories.
dir_train_flowing = os.path.join(dir_output, 'train')
dir_eval_flowing = os.path.join(dir_output, 'eval')
# make first a directory in output for both training and evaluations in order to flow data from these directories.
dir_train_flowing = os.path.join(dir_output, 'train')
dir_eval_flowing = os.path.join(dir_output, 'eval')
dir_flow_train_imgs = os.path.join(dir_train_flowing, 'images/')
dir_flow_train_labels = os.path.join(dir_train_flowing, 'labels/')
dir_flow_train_imgs = os.path.join(dir_train_flowing, 'images/')
dir_flow_train_labels = os.path.join(dir_train_flowing, 'labels/')
dir_flow_eval_imgs = os.path.join(dir_eval_flowing, 'images/')
dir_flow_eval_labels = os.path.join(dir_eval_flowing, 'labels/')
dir_flow_eval_imgs = os.path.join(dir_eval_flowing, 'images/')
dir_flow_eval_labels = os.path.join(dir_eval_flowing, 'labels/')
if os.path.isdir(dir_train_flowing):
os.system('rm -rf ' + dir_train_flowing)
os.makedirs(dir_train_flowing)
else:
os.makedirs(dir_train_flowing)
if os.path.isdir(dir_train_flowing):
os.system('rm -rf ' + dir_train_flowing)
os.makedirs(dir_train_flowing)
else:
os.makedirs(dir_train_flowing)
if os.path.isdir(dir_eval_flowing):
os.system('rm -rf ' + dir_eval_flowing)
os.makedirs(dir_eval_flowing)
else:
os.makedirs(dir_eval_flowing)
if os.path.isdir(dir_eval_flowing):
os.system('rm -rf ' + dir_eval_flowing)
os.makedirs(dir_eval_flowing)
else:
os.makedirs(dir_eval_flowing)
os.mkdir(dir_flow_train_imgs)
os.mkdir(dir_flow_train_labels)
os.mkdir(dir_flow_train_imgs)
os.mkdir(dir_flow_train_labels)
os.mkdir(dir_flow_eval_imgs)
os.mkdir(dir_flow_eval_labels)
os.mkdir(dir_flow_eval_imgs)
os.mkdir(dir_flow_eval_labels)
# set the gpu configuration
configuration()
# set the gpu configuration
configuration()
imgs_list=np.array(os.listdir(dir_img))
segs_list=np.array(os.listdir(dir_seg))
imgs_list_test=np.array(os.listdir(dir_img_val))
segs_list_test=np.array(os.listdir(dir_seg_val))
# writing patches into a sub-folder in order to be flowed from directory.
provide_patches(imgs_list, segs_list, dir_img, dir_seg, dir_flow_train_imgs,
dir_flow_train_labels, input_height, input_width, blur_k,
blur_aug, padding_white, padding_black, flip_aug, binarization,
scaling, degrading, brightening, scales, degrade_scales, brightness,
flip_index, scaling_bluring, scaling_brightness, scaling_binarization,
rotation, rotation_not_90, thetha, scaling_flip, augmentation=augmentation,
patches=patches)
provide_patches(imgs_list_test, segs_list_test, dir_img_val, dir_seg_val,
dir_flow_eval_imgs, dir_flow_eval_labels, input_height, input_width,
blur_k, blur_aug, padding_white, padding_black, flip_aug, binarization,
scaling, degrading, brightening, scales, degrade_scales, brightness,
flip_index, scaling_bluring, scaling_brightness, scaling_binarization,
rotation, rotation_not_90, thetha, scaling_flip, augmentation=False, patches=patches)
if weighted_loss:
weights = np.zeros(n_classes)
if data_is_provided:
for obj in os.listdir(dir_flow_train_labels):
try:
label_obj = cv2.imread(dir_flow_train_labels + '/' + obj)
label_obj_one_hot = get_one_hot(label_obj, label_obj.shape[0], label_obj.shape[1], n_classes)
weights += (label_obj_one_hot.sum(axis=0)).sum(axis=0)
except:
pass
else:
for obj in os.listdir(dir_seg):
try:
label_obj = cv2.imread(dir_seg + '/' + obj)
label_obj_one_hot = get_one_hot(label_obj, label_obj.shape[0], label_obj.shape[1], n_classes)
weights += (label_obj_one_hot.sum(axis=0)).sum(axis=0)
except:
pass
weights = 1.00 / weights
weights = weights / float(np.sum(weights))
weights = weights / float(np.min(weights))
weights = weights / float(np.sum(weights))
if continue_training:
if model_name=='resnet50_unet':
if is_loss_soft_dice:
model = load_model(dir_of_start_model, compile=True, custom_objects={'soft_dice_loss': soft_dice_loss})
if weighted_loss:
model = load_model(dir_of_start_model, compile=True, custom_objects={'loss': weighted_categorical_crossentropy(weights)})
if not is_loss_soft_dice and not weighted_loss:
model = load_model(dir_of_start_model , compile=True)
elif model_name=='hybrid_transformer_cnn':
if is_loss_soft_dice:
model = load_model(dir_of_start_model, compile=True, custom_objects={"PatchEncoder": PatchEncoder, "Patches": Patches,'soft_dice_loss': soft_dice_loss})
if weighted_loss:
model = load_model(dir_of_start_model, compile=True, custom_objects={'loss': weighted_categorical_crossentropy(weights)})
if not is_loss_soft_dice and not weighted_loss:
model = load_model(dir_of_start_model , compile=True,custom_objects = {"PatchEncoder": PatchEncoder, "Patches": Patches})
else:
index_start = 0
if model_name=='resnet50_unet':
model = resnet50_unet(n_classes, input_height, input_width,weight_decay,pretraining)
elif model_name=='hybrid_transformer_cnn':
model = vit_resnet50_unet(n_classes, transformer_patchsize, num_patches, input_height, input_width,weight_decay,pretraining)
#if you want to see the model structure just uncomment model summary.
#model.summary()
imgs_list=np.array(os.listdir(dir_img))
segs_list=np.array(os.listdir(dir_seg))
if not is_loss_soft_dice and not weighted_loss:
model.compile(loss='categorical_crossentropy',
optimizer=Adam(lr=learning_rate), metrics=['accuracy'])
if is_loss_soft_dice:
model.compile(loss=soft_dice_loss,
optimizer=Adam(lr=learning_rate), metrics=['accuracy'])
if weighted_loss:
model.compile(loss=weighted_categorical_crossentropy(weights),
optimizer=Adam(lr=learning_rate), metrics=['accuracy'])
imgs_list_test=np.array(os.listdir(dir_img_val))
segs_list_test=np.array(os.listdir(dir_seg_val))
# writing patches into a sub-folder in order to be flowed from directory.
provide_patches(imgs_list, segs_list, dir_img, dir_seg, dir_flow_train_imgs,
dir_flow_train_labels, input_height, input_width, blur_k,
blur_aug, padding_white, padding_black, flip_aug, binarization,
scaling, degrading, brightening, scales, degrade_scales, brightness,
flip_index, scaling_bluring, scaling_brightness, scaling_binarization,
rotation, rotation_not_90, thetha, scaling_flip, augmentation=augmentation,
patches=patches)
# generating train and evaluation data
train_gen = data_gen(dir_flow_train_imgs, dir_flow_train_labels, batch_size=n_batch,
input_height=input_height, input_width=input_width, n_classes=n_classes)
val_gen = data_gen(dir_flow_eval_imgs, dir_flow_eval_labels, batch_size=n_batch,
input_height=input_height, input_width=input_width, n_classes=n_classes)
provide_patches(imgs_list_test, segs_list_test, dir_img_val, dir_seg_val,
dir_flow_eval_imgs, dir_flow_eval_labels, input_height, input_width,
blur_k, blur_aug, padding_white, padding_black, flip_aug, binarization,
scaling, degrading, brightening, scales, degrade_scales, brightness,
flip_index, scaling_bluring, scaling_brightness, scaling_binarization,
rotation, rotation_not_90, thetha, scaling_flip, augmentation=False, patches=patches)
if weighted_loss:
weights = np.zeros(n_classes)
if data_is_provided:
for obj in os.listdir(dir_flow_train_labels):
try:
label_obj = cv2.imread(dir_flow_train_labels + '/' + obj)
label_obj_one_hot = get_one_hot(label_obj, label_obj.shape[0], label_obj.shape[1], n_classes)
weights += (label_obj_one_hot.sum(axis=0)).sum(axis=0)
except:
pass
else:
##img_validation_patches = os.listdir(dir_flow_eval_imgs)
##score_best=[]
##score_best.append(0)
for i in tqdm(range(index_start, n_epochs + index_start)):
model.fit_generator(
train_gen,
steps_per_epoch=int(len(os.listdir(dir_flow_train_imgs)) / n_batch) - 1,
validation_data=val_gen,
validation_steps=1,
epochs=1)
model.save(dir_output+'/'+'model_'+str(i))
with open(dir_output+'/'+'model_'+str(i)+'/'+"config.json", "w") as fp:
json.dump(_config, fp) # encode dict into JSON
for obj in os.listdir(dir_seg):
try:
label_obj = cv2.imread(dir_seg + '/' + obj)
label_obj_one_hot = get_one_hot(label_obj, label_obj.shape[0], label_obj.shape[1], n_classes)
weights += (label_obj_one_hot.sum(axis=0)).sum(axis=0)
except:
pass
weights = 1.00 / weights
weights = weights / float(np.sum(weights))
weights = weights / float(np.min(weights))
weights = weights / float(np.sum(weights))
if continue_training:
if model_name=='resnet50_unet':
if is_loss_soft_dice:
model = load_model(dir_of_start_model, compile=True, custom_objects={'soft_dice_loss': soft_dice_loss})
if weighted_loss:
model = load_model(dir_of_start_model, compile=True, custom_objects={'loss': weighted_categorical_crossentropy(weights)})
if not is_loss_soft_dice and not weighted_loss:
model = load_model(dir_of_start_model , compile=True)
elif model_name=='hybrid_transformer_cnn':
if is_loss_soft_dice:
model = load_model(dir_of_start_model, compile=True, custom_objects={"PatchEncoder": PatchEncoder, "Patches": Patches,'soft_dice_loss': soft_dice_loss})
if weighted_loss:
model = load_model(dir_of_start_model, compile=True, custom_objects={'loss': weighted_categorical_crossentropy(weights)})
if not is_loss_soft_dice and not weighted_loss:
model = load_model(dir_of_start_model , compile=True,custom_objects = {"PatchEncoder": PatchEncoder, "Patches": Patches})
else:
index_start = 0
if model_name=='resnet50_unet':
model = resnet50_unet(n_classes, input_height, input_width,weight_decay,pretraining)
elif model_name=='hybrid_transformer_cnn':
model = vit_resnet50_unet(n_classes, transformer_patchsize, num_patches, input_height, input_width,weight_decay,pretraining)
#if you want to see the model structure just uncomment model summary.
#model.summary()
#os.system('rm -rf '+dir_train_flowing)
#os.system('rm -rf '+dir_eval_flowing)
#model.save(dir_output+'/'+'model'+'.h5')
elif task=='classification':
configuration()
model = resnet50_classifier(n_classes, input_height, input_width,weight_decay,pretraining)
if not is_loss_soft_dice and not weighted_loss:
opt_adam = Adam(learning_rate=0.001)
model.compile(loss='categorical_crossentropy',
optimizer=Adam(lr=learning_rate), metrics=['accuracy'])
if is_loss_soft_dice:
model.compile(loss=soft_dice_loss,
optimizer=Adam(lr=learning_rate), metrics=['accuracy'])
if weighted_loss:
model.compile(loss=weighted_categorical_crossentropy(weights),
optimizer=Adam(lr=learning_rate), metrics=['accuracy'])
# generating train and evaluation data
train_gen = data_gen(dir_flow_train_imgs, dir_flow_train_labels, batch_size=n_batch,
input_height=input_height, input_width=input_width, n_classes=n_classes)
val_gen = data_gen(dir_flow_eval_imgs, dir_flow_eval_labels, batch_size=n_batch,
input_height=input_height, input_width=input_width, n_classes=n_classes)
##img_validation_patches = os.listdir(dir_flow_eval_imgs)
##score_best=[]
##score_best.append(0)
for i in tqdm(range(index_start, n_epochs + index_start)):
model.fit_generator(
train_gen,
steps_per_epoch=int(len(os.listdir(dir_flow_train_imgs)) / n_batch) - 1,
validation_data=val_gen,
validation_steps=1,
epochs=1)
model.save(dir_output+'/'+'model_'+str(i))
with open(dir_output+'/'+'model_'+str(i)+'/'+"config.json", "w") as fp:
json.dump(_config, fp) # encode dict into JSON
optimizer = opt_adam,metrics=['accuracy'])
testX, testY = generate_data_from_folder_evaluation(dir_eval, input_height, input_width, n_classes)
#print(testY.shape, testY)
y_tot=np.zeros((testX.shape[0],n_classes))
indexer=0
#os.system('rm -rf '+dir_train_flowing)
#os.system('rm -rf '+dir_eval_flowing)
score_best=[]
score_best.append(0)
#model.save(dir_output+'/'+'model'+'.h5')
num_rows = return_number_of_total_training_data(dir_train)
weights=[]
for i in range(n_epochs):
#history = model.fit(trainX, trainY, epochs=1, batch_size=n_batch, validation_data=(testX, testY), verbose=2)#,class_weight=weights)
history = model.fit( generate_data_from_folder_training(dir_train, n_batch , input_height, input_width, n_classes), steps_per_epoch=num_rows / n_batch, verbose=0)#,class_weight=weights)
y_pr_class = []
for jj in range(testY.shape[0]):
y_pr=model.predict(testX[jj,:,:,:].reshape(1,input_height,input_width,3), verbose=0)
y_pr_ind= np.argmax(y_pr,axis=1)
#print(y_pr_ind, 'y_pr_ind')
y_pr_class.append(y_pr_ind)
y_pr_class = np.array(y_pr_class)
#model.save('./models_save/model_'+str(i)+'.h5')
#y_pr_class=np.argmax(y_pr,axis=1)
f1score=f1_score(np.argmax(testY,axis=1), y_pr_class, average='macro')
print(i,f1score)
if f1score>score_best[0]:
score_best[0]=f1score
model.save(os.path.join(dir_output,'model_best'))
##best_model=keras.models.clone_model(model)
##best_model.build()
##best_model.set_weights(model.get_weights())
if f1score > f1_threshold_classification:
weights.append(model.get_weights() )
y_tot=y_tot+y_pr
indexer+=1
y_tot=y_tot/float(indexer)
new_weights=list()
for weights_list_tuple in zip(*weights):
new_weights.append( [np.array(weights_).mean(axis=0) for weights_ in zip(*weights_list_tuple)] )
new_weights = [np.array(x) for x in new_weights]
model_weight_averaged=tf.keras.models.clone_model(model)
model_weight_averaged.set_weights(new_weights)
#y_tot_end=np.argmax(y_tot,axis=1)
#print(f1_score(np.argmax(testY,axis=1), y_tot_end, average='macro'))
##best_model.save('model_taza.h5')
model_weight_averaged.save(os.path.join(dir_output,'model_ens_avg'))

113
utils.py
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@ -8,6 +8,119 @@ import random
from tqdm import tqdm
import imutils
import math
from tensorflow.keras.utils import to_categorical
def return_number_of_total_training_data(path_classes):
sub_classes = os.listdir(path_classes)
n_tot = 0
for sub_c in sub_classes:
sub_files = os.listdir(os.path.join(path_classes,sub_c))
n_tot = n_tot + len(sub_files)
return n_tot
def generate_data_from_folder_evaluation(path_classes, height, width, n_classes):
sub_classes = os.listdir(path_classes)
#n_classes = len(sub_classes)
all_imgs = []
labels = []
dicts =dict()
indexer= 0
for sub_c in sub_classes:
sub_files = os.listdir(os.path.join(path_classes,sub_c ))
sub_files = [os.path.join(path_classes,sub_c )+'/' + x for x in sub_files]
#print( os.listdir(os.path.join(path_classes,sub_c )) )
all_imgs = all_imgs + sub_files
sub_labels = list( np.zeros( len(sub_files) ) +indexer )
#print( len(sub_labels) )
labels = labels + sub_labels
dicts[sub_c] = indexer
indexer +=1
categories = to_categorical(range(n_classes)).astype(np.int16)#[ [1 , 0, 0 , 0 , 0 , 0] , [0 , 1, 0 , 0 , 0 , 0] , [0 , 0, 1 , 0 , 0 , 0] , [0 , 0, 0 , 1 , 0 , 0] , [0 , 0, 0 , 0 , 1 , 0] , [0 , 0, 0 , 0 , 0 , 1] ]
ret_x= np.zeros((len(labels), height,width, 3)).astype(np.int16)
ret_y= np.zeros((len(labels), n_classes)).astype(np.int16)
#print(all_imgs)
for i in range(len(all_imgs)):
row = all_imgs[i]
#####img = cv2.imread(row, 0)
#####img= resize_image (img, height, width)
#####img = img.astype(np.uint16)
#####ret_x[i, :,:,0] = img[:,:]
#####ret_x[i, :,:,1] = img[:,:]
#####ret_x[i, :,:,2] = img[:,:]
img = cv2.imread(row)
img= resize_image (img, height, width)
img = img.astype(np.uint16)
ret_x[i, :,:] = img[:,:,:]
ret_y[i, :] = categories[ int( labels[i] ) ][:]
return ret_x/255., ret_y
def generate_data_from_folder_training(path_classes, batchsize, height, width, n_classes):
sub_classes = os.listdir(path_classes)
n_classes = len(sub_classes)
all_imgs = []
labels = []
dicts =dict()
indexer= 0
for sub_c in sub_classes:
sub_files = os.listdir(os.path.join(path_classes,sub_c ))
sub_files = [os.path.join(path_classes,sub_c )+'/' + x for x in sub_files]
#print( os.listdir(os.path.join(path_classes,sub_c )) )
all_imgs = all_imgs + sub_files
sub_labels = list( np.zeros( len(sub_files) ) +indexer )
#print( len(sub_labels) )
labels = labels + sub_labels
dicts[sub_c] = indexer
indexer +=1
ids = np.array(range(len(labels)))
random.shuffle(ids)
shuffled_labels = np.array(labels)[ids]
shuffled_files = np.array(all_imgs)[ids]
categories = to_categorical(range(n_classes)).astype(np.int16)#[ [1 , 0, 0 , 0 , 0 , 0] , [0 , 1, 0 , 0 , 0 , 0] , [0 , 0, 1 , 0 , 0 , 0] , [0 , 0, 0 , 1 , 0 , 0] , [0 , 0, 0 , 0 , 1 , 0] , [0 , 0, 0 , 0 , 0 , 1] ]
ret_x= np.zeros((batchsize, height,width, 3)).astype(np.int16)
ret_y= np.zeros((batchsize, n_classes)).astype(np.int16)
batchcount = 0
while True:
for i in range(len(shuffled_files)):
row = shuffled_files[i]
#print(row)
###img = cv2.imread(row, 0)
###img= resize_image (img, height, width)
###img = img.astype(np.uint16)
###ret_x[batchcount, :,:,0] = img[:,:]
###ret_x[batchcount, :,:,1] = img[:,:]
###ret_x[batchcount, :,:,2] = img[:,:]
img = cv2.imread(row)
img= resize_image (img, height, width)
img = img.astype(np.uint16)
ret_x[batchcount, :,:,:] = img[:,:,:]
#print(int(shuffled_labels[i]) )
#print( categories[int(shuffled_labels[i])] )
ret_y[batchcount, :] = categories[ int( shuffled_labels[i] ) ][:]
batchcount+=1
if batchcount>=batchsize:
ret_x = ret_x/255.
yield (ret_x, ret_y)
ret_x= np.zeros((batchsize, height,width, 3)).astype(np.int16)
ret_y= np.zeros((batchsize, n_classes)).astype(np.int16)
batchcount = 0
def do_brightening(img_in_dir, factor):
im = Image.open(img_in_dir)

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