def make_imageresize(file_path, extension='.jpg'):
"""Resize images for standardized instagram posting and overwrite their.
Args:
file_path(str): image file location
extension(str): image file extension
"""
gorizontal = [1080, 565]
vertical = [600, 750]
quadrate = [gorizontal[0], gorizontal[0]]
if get_file_extension(file_path) == extension:
fd_img = open(file_path, 'rb')
img = Image.open(fd_img)
try:
if img.width > img.height:
img = resizeimage.resize_contain(img, gorizontal)
elif img.width == img.height:
img = resizeimage.resize_contain(img, quadrate)
else:
img = resizeimage.resize_contain(img, vertical)
except resizeimage.ImageSizeError:
logging.info('ImageSizeError' + img)
if img.mode in ("RGBA", "P"):
img = img.convert("RGB")
img.save(file_path, img.format)
fd_img.close()
else:
pass
def resize(self, width, height, name='', type='width'):
output = os.path.join(self.cdir, self.name + '-' + str(width) + 'x' + str(height) + '-' + name + self.ext)
with open(self.src, 'r+b') as f:
with Image.open(f) as image:
if type == 'contain':
try:
result = resizeimage.resize_cover(image, [width, height])
except:
tmp = resizeimage.resize_contain(image, [width, height])
result = resizeimage.resize_cover(tmp, [width, height])
elif type == 'height':
result = resizeimage.resize_height(image, height, validate=False)
elif type == 'crop':
tmp = resizeimage.resize_contain(image, [width + 150, height + 150])
result = resizeimage.resize_crop(tmp, [width, height])
elif type == 'tcrop':
tmp = resizeimage.resize_contain(image, [width, height])
result = resizeimage.resize_crop(tmp, [width, height])
elif type == 'thumbnail':
result = resizeimage.resize_thumbnail(image, [width, height])
else:
result = resizeimage.resize_width(image, width, validate=False)
result.save(output, optimize=True)
return [output, '[{}x{}] {}'.format(width, height, name), self.name + '-' + str(width) + 'x' + str(height) + '-' + name + self.ext, name]
def compute_similarities(event_users, photo_target):
photo_target = BytesIO(photo_target)
with Image.open(photo_target) as image:
width, height = image.size
imageB = resizeimage.resize_contain(
image, [int(0.5 * width), int(0.5 * height)])
imageB.save("imageB.png")
unknown_picture = face_recognition.load_image_file("imageB.png")
if len(face_recognition.face_encodings(unknown_picture)) > 0:
unknown_face_encoding = face_recognition.face_encodings(
unknown_picture)[0]
for stored_user in event_users:
url_stored = stored_user['userInfo']['photo']
stored_file = BytesIO(urllib.urlopen(url_stored).read())
with Image.open(stored_file) as image:
width, height = image.size
imageA = resizeimage.resize_contain(
image,
[int(0.5 * width), int(0.5 * height)])
imageA.save("imageA.png")
known_picture = face_recognition.load_image_file("imageA.png")
known_face_encoding = face_recognition.face_encodings(
known_picture)[0]
distance = face_recognition.face_distance([known_face_encoding],
unknown_face_encoding)[0]
stored_user['score'] = 1 - distance
return True
else:
return False
def transform_images(image_names, path_to_dataset: str = '.'):
for image_name in image_names:
path = pathlib.Path(f'{path_to_dataset}/{image_name}.ppm')
with open(path, 'r+b') as file:
with Image.open(file) as image:
cover = resizeimage.resize_contain(image, [700, 700])
cover = resizeimage.resize_contain(cover, [256, 256])
cover.save(f'./transformed/{image_name}.png')
def resizeSignature(nameSignature, train=True, genuine=True):
if train and genuine:
with open(nameSignature, 'r+b') as f:
with Image.open(f) as image:
cover = resizeimage.resize_contain(image, [500, 300]).convert('L')
cover = np.asanyarray(cover)
#cover = scipy.misc.imresize(image, (500,500), map()ode='L')
elif train and not genuine:
with open(nameSignature, 'r+b') as f:
with Image.open(f) as image:
cover = resizeimage.resize_contain(image, [500, 300]).convert('L')
cover = np.asanyarray(cover)
return cover
def signUp():
"""
Sign UP function if there is no third party account.
Stores the credentials in database.
"""
users = session.query(User).all()
if 'email' in request.form and request.method == 'POST':
email = request.form['email']
if request.form['email'] in [user.email for user in users]:
flash('{} is already is registred!'.format(email))
return render_template('signup.html')
else:
flash('Please provide your email address!')
return render_template('signup.html')
if 'file' not in request.files and 'image' in request.files:
image = request.files['image']
if image.filename != '' and allowed_file(image.filename):
filename = secure_filename(image.filename)
if (
image.filename in
[user.image.split('/')[-1] for user in users]
):
flash('{} picture name already exists!'.format(image.filename))
return render_template('signup.html')
image_resize = Image.open(image)
image_resize = resizeimage.resize_contain(image_resize, [200, 200])
image_resize.save(os.path.join(
app.config['UPLOAD_FOLDER'], filename
), image_resize.format)
image_path = 'item_images/' + filename
else:
image_path = 'profile_images/profile.png'
else:
image_path = 'profile_images/profile.png'
if 'username' in request.form:
username = request.form['username']
if username in [user.name for user in users]:
flash('{} user name already exists!'.format(username))
return render_template('signup.html')
else:
flash('Please choose a user name!')
return render_template('signup.html')
if 'password1' in request.form and 'password2' in request.form:
password1 = request.form['password1']
password2 = request.form['password2']
if password1 != password2:
flash('The password does not match')
return render_template('signup.html')
else:
flash('Please choose a password!')
return render_template('signup.html')
user = User(name=username, email=email, image=image_path)
user.hash_password(password1)
session.add(user)
session.commit()
return redirect(url_for('showLogin'))
def read_jpg(filepath, weight, height, name):
image = im.open(filepath)
image = ri.resize_contain(image, [weight,height])
image=image.convert('RGB')
#image.save('/home/lukasz/Downloads/tmp/'+name)
image = np.array(image)
return image
def feeder():
counter = 0
while len(pics)>=4:
corners = CORNERS[:]
print corners
canvas = Image.new('RGBA', (CANVAS_X, CANVAS_Y))
# Here the four pictures will be rezised to fit the canvas
for x in range(0,4):
pic = Image.open(pics.pop(0))
if pic.height > pic.width:
pic = pic.rotate(90, expand = 1)
#CHECK IF THE PICTURE PASSES THE SIZE REQUIREMENT, IF SO RUNS RESIZEIMAGE
if pic.size[0] >= CANVAS_X/2:
pic = resizeimage.resize_contain(pic,[CANVAS_X/2, CANVAS_Y/2])
#IF THE REQUIREMENT IS NOT MET, THE PICTURE WILL BE UPSCALED
else:
if pic.height == pic.width or pic.height/CANVAS_Y > pic.width/CANVAS_Y:
baseheight = CANVAS_Y/2
wpercent = (baseheight/float(pilt.size[0]))
hsize = int((float(pic.size[1])*float(wpercent)))
pic = pic.resize((baseheight,hsize), PIL.Image.ANTIALIAS)
else:
basewidth = CANVAS_X/2
wpercent = (basewidth/float(pic.size[0]))
hsize = int((float(pic.size[1])*float(wpercent)))
pic = pic.resize((basewidth,hsize), PIL.Image.ANTIALIAS)
canvas.paste(pic, corners.pop(0))
canvas.save('/tmp/collab{0}.jpg'.format(counter))
counter += 1
print canvas
def resize_img(self, filename: str, size: Tuple[int, int] = (299, 299)):
"""
Resizes the image using padding
:param filename:
:param size:
"""
img = Image.open(join(self.source_dir, filename))
width, height = img.size
orig_shape = np.array(img.size)
wanted_shape = np.array(size)
ratios = wanted_shape / orig_shape
wanted_width, wanted_height = size
ratio_w, ratio_h = wanted_width / width, wanted_height / height
if np.alltrue(ratios > 1):
# Both sides of the image are shorter than the desired dimension,
# so take the side that's closer in size and enlarge the image
# in both directions to make that one fit
factor = min(ratio_h, ratio_w)
img = img.resize((int(width * factor), int(height * factor)))
# Now we have an image that's either larger than the desired shape
# or at least one side matches the desired shape and we can resize
# with contain
cover = resizeimage.resize_contain(img, size)
cover.save(join(self.dest_dir, filename), 'JPEG')
def resize_images(images, width, height):
"""
Resize images
This should keep the aspect ratio of the images
"""
all_images = []
for image in images:
try:
fd_img = open(image, "rb")
except Exception as err:
_LOGGER.error("Error attempting to open image %s: %s", str(image),
str(err))
continue
try:
img = Image.open(fd_img)
except Exception as err:
_LOGGER.error("Error attempting to read image %s: %s", str(image),
str(err))
continue
img = resizeimage.resize_contain(img, [width, height])
pre, ext = os.path.splitext(image)
image = pre + ".gif"
img.save(image, img.format)
fd_img.close()
all_images.append(image)
return all_images
def save(self, force_resize=False, *args, **kwargs):
if (self.pk is None and self.image) or force_resize:
try:
image = Image.open(self.image)
if _decompression_bomb_check(image):
raise ValidationError("Invalid image")
except IOError:
return super(ResizeUploadedImage, self).save(*args, **kwargs)
if image.format == 'PNG':
max_square = getattr(settings, 'IMAGE_FIELD_MAX_PX', 400)
smaller_than_canvas = \
(image.width < max_square and image.height < max_square)
if smaller_than_canvas:
max_square = (image.width
if image.width > image.height
else image.height)
new_image = resize_contain(image, (max_square, max_square))
byte_string = io.BytesIO()
new_image.save(byte_string, 'PNG')
self.image = InMemoryUploadedFile(byte_string, None,
self.image.name, 'image/png',
byte_string.tell(), None)
return super(ResizeUploadedImage, self).save(*args, **kwargs)
def resize_images(images: list, width: int, height: int) -> list:
"""Resize images.
This should keep the aspect ratio of the images
Returns list of images
"""
all_images = []
for image in images:
try:
with open(image, "rb") as fd_img:
try:
img = Image.open(fd_img)
img = resizeimage.resize_contain(img, [width, height])
pre = os.path.splitext(image)[0]
image = pre + ".gif"
img.save(image, img.format)
fd_img.close()
all_images.append(image)
except Exception as err:
_LOGGER.error("Error attempting to read image %s: %s",
str(image), str(err))
continue
except Exception as err:
_LOGGER.error("Error attempting to open image %s: %s", str(image),
str(err))
continue
return all_images
def get_document_pages(document_content_encoded: str) -> List[bytes]:
# decode the content of the document
document_content = b64decode(document_content_encoded)
# extract the PDF file
pdf = open_pdf(stream=document_content, filetype="pdf")
# convert PDF document to PNG images (bytes)
images_original = (page.getPixmap().getPNGdata() for page in pdf)
# reduce size of each image to fit the max width and max height
images_reduced = []
for image_original in images_original:
# prepare streams of data
image_original_stream = BytesIO(image_original)
image_reduced_stream = BytesIO()
# convert original image stream to PIL image format
image_original_pil = Image.open(image_original_stream)
# resize the image to fit
image_reduced_pil = resize_contain(image_original_pil, [
settings.RENDERING_PNG_MAX_WIDTH, settings.RENDERING_PNG_MAX_HEIGHT
])
# convert the resized PIL image back to stream and then back to bytes
image_reduced_pil.save(image_reduced_stream, format='PNG')
image_reduced = image_reduced_stream.getvalue()
# add to the list of converted pages
images_reduced.append(image_reduced)
return images_reduced
def check_fire(image_url):
image_reduce_shape = 144
# Open file and preprocess
img = Image.open(image_url)
img_resized = np.array(img)
img_grey = rgb2grey(img_resized)
img_shape = np.shape(img_grey)
img_shape = img_shape == (image_reduce_shape, image_reduce_shape)
if not img_shape:
img = Image.open(image_url)
img_resized = resizeimage.resize_contain(
img, [image_reduce_shape, image_reduce_shape])
img_resized = np.array(img_resized)
img_grey = rgb2grey(img_resized)
img_grey = img_grey.reshape(1, image_reduce_shape * image_reduce_shape)
# load model
#pkl_filename = 'fire_predictor_model.pkl'
BASE_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
IMG_DETECTOR = os.path.join(BASE_DIR, 'imgdetector')
pkl_filename = IMG_DETECTOR + '/fire_predictor_model.pkl'
with open(pkl_filename, 'rb') as file:
model = pickle.load(file)
prediction = model.predict(img_grey)
if prediction[0] == 1.0:
return True
else:
return False
def process_image(photo, uid):
if imghdr.what(photo):
key = 'jpegPhoto'
account = ldap_get_member(uid)
image = Image.open(photo)
icon = resizeimage.resize_contain(image, [300, 300])
icon = icon.convert("RGB")
bin_icon = io.BytesIO()
icon.save(bin_icon, format='JPEG')
con = _ldap.get_con()
exists = account.jpegPhoto
if not exists:
ldap_mod = ldap.MOD_ADD
else:
ldap_mod = ldap.MOD_REPLACE
mod = (ldap_mod, key, bin_icon.getvalue())
mod_attrs = [mod]
con.modify_s(account.get_dn(), mod_attrs)
return True
else:
return False
def FER2013_Testing_Set(self):
Testing_labels = []
Testing_Images = []
path = self.path + 'FER2013-Testing.csv'
with open(path) as csvfile:
readCSV = csv.reader(csvfile, delimiter=',')
#row[0] = Labels, row[1] = Image Pixels
c = 0
for row in readCSV:
Label = [0] * 7
Label[int(row[0])] = 1
Testing_labels.append(Label)
image = row[1].split()
#Cast strings to integer
image = [int(i) for i in image]
#Convert 1D array to 2D array 48x48
Image48x48 = np.reshape(image, (48, 48))
#Convert 2D array to Image
Image42x42 = Image.fromarray(np.uint8(Image48x48))
#Resize Image to 42x42
Image42x42 = resizeimage.resize_contain(Image42x42, [42, 42])
#Convert Image to 2D array
Image42x42 = np.uint8(Image42x42.convert('L'))
Testing_Images.append(Image42x42)
c = c + 1
if c >= 400:
break
return Testing_labels, Testing_Images
async def create_listing(db: Session = Depends(get_db),
user: schemas.User = Depends(get_current_user),
name: str = Form(...),
price: int = Form(...),
category: str = Form(...),
course: Optional[str] = Form(None),
description: str = Form(...),
images: List[UploadFile] = File(...)):
# create new listing object
listing = schemas.Listing(name=name, description=description, price=price, seller_id=user.id, course=course)
photoPaths = []
for file in images:
# create random file names for image and thumbnail
imgName = str(uuid.uuid4())
thmbName = str(uuid.uuid4())
fileType = '.png'
# construct file paths
imgPath = "/images/" + imgName + fileType
thmbPath = "/images/" + thmbName + fileType
photoPaths.append((imgPath, thmbPath))
# save as full-sized image
img = Image.open(file.file)
img.save(imgPath, img.format)
# save as thumbnail
img = resizeimage.resize_contain(img, [256, 256], bg_color=(0, 0, 0, 0))
img.save(thmbPath, img.format)
img.close()
return crud.create_listing(db, listing, photoPaths, category)
def save(self, *args, **kwargs):
if self.pk is None and self.image:
try:
image = Image.open(self.image)
except IOError:
return super(ResizeUploadedImage, self).save(*args, **kwargs)
if image.format == 'PNG':
max_square = getattr(settings, 'IMAGE_FIELD_MAX_PX', 400)
smaller_than_canvas = \
(image.width < max_square and image.height < max_square)
if smaller_than_canvas:
max_square = (image.width
if image.width > image.height
else image.height)
new_image = resize_contain(image, (max_square, max_square))
byte_string = StringIO.StringIO()
new_image.save(byte_string, 'PNG')
self.image = InMemoryUploadedFile(byte_string, None,
self.image.name, 'image/png',
byte_string.len, None)
return super(ResizeUploadedImage, self).save(*args, **kwargs)
def resize_img(self, filename: str, size: Tuple[int, int] = (299, 299)):
"""
Resizes the image using padding
:param filename:
:param size:
"""
img = Image.open(join(self.source_dir, filename))
orig_width, orig_height = img.size
wanted_width, wanted_height = size
ratio_w, ratio_h = wanted_width / orig_width, wanted_height / orig_height
enlarge_factor = min(ratio_h, ratio_w)
if enlarge_factor > 1:
# Both sides of the image are shorter than the desired dimension,
# so take the side that's closer in size and enlarge the image
# in both directions to make that one fit
enlarged_size = (int(orig_width * enlarge_factor),
int(orig_height * enlarge_factor))
img = img.resize(enlarged_size)
# Now we have an image that's either larger than the desired shape
# or at least one side matches the desired shape and we can resize
# with contain
res = resizeimage.resize_contain(img, size).convert('RGB')
res.save(join(self.dest_dir, filename), res.format)
def Open(event):
"""
action, that loads image, calls network function, that generates caption
and shows image and caption in the box
"""
ftypes = [('JPEG files', '*.jpg'), ('All files', '*')]
dlg = tkFileDialog.Open(filetypes=ftypes)
fl = dlg.show()
img_op = Image.open(fl)
img_op = resizeimage.resize_contain(img_op, [400, 400])
img = ImageTk.PhotoImage(img_op)
outp = Net.make_caption(fl)
label1 = Label(root, image=img)
label1.image = img
label2 = Label(root, font="helvetica 18")
label3 = Label(root, font="helvetica 15")
label4 = Label(root, font="helvetica 15")
label5 = Label(root, font="helvetica 15")
label2["text"] = "Captions:"
label3["text"] = outp[0]
label4["text"] = outp[1]
label5["text"] = outp[2]
label1.place(x=10, y=50)
label2.place(x=450, y=150)
label3.place(x=450, y=200)
label4.place(x=450, y=250)
label5.place(x=450, y=300)
def save(self, *args, **kwargs):
if self.pk is None and self.image:
try:
image = Image.open(self.image)
except IOError:
return super(ResizeUploadedImage, self).save(*args, **kwargs)
if image.format == 'PNG':
max_square = getattr(settings, 'IMAGE_FIELD_MAX_PX', 400)
smaller_than_canvas = \
(image.width < max_square and image.height < max_square)
if smaller_than_canvas:
max_square = (image.width if image.width > image.height
else image.height)
new_image = resize_contain(image, (max_square, max_square))
byte_string = StringIO.StringIO()
new_image.save(byte_string, 'PNG')
self.image = InMemoryUploadedFile(byte_string, None,
self.image.name, 'image/png',
byte_string.len, None)
return super(ResizeUploadedImage, self).save(*args, **kwargs)
def FER2013_Training_Set(self):
path = self.path + 'FER2013-Training.csv'
Training_labels = []
Training_Images = []
with open(path) as csvfile:
readCSV = csv.reader(csvfile, delimiter=',')
#row[0] = Labels, row[1] = Image Pixels
for row in readCSV:
Label = int(row[0])
#Label = [0] * 7
#Label[int(row[0])] = 1
Training_labels.append(Label)
image = row[1].split()
#Cast strings to integer
image = [int(i) for i in image]
#Convert 1D array to 2D array 48x48
Image48x48 = np.reshape(image, (48, 48))
#Convert 2D array to Image
Image90x90 = Image.fromarray(np.uint8(Image48x48))
#Resize Image to 90x90
Image90x90 = resizeimage.resize_contain(Image90x90, [90, 90])
#Convert Image to 2D array
Image90x90 = np.uint8(Image90x90.convert('L'))
Training_Images.append(Image90x90)
return Training_labels, np.array(Training_Images)
def savePicture(file, id):
'''
Resize and save an uploaded picture for an item into static folder and
return the filename of the picture.
'''
extension = file.filename.rsplit('.', 1)[1]
if extension.lower() not in ALLOWED_EXTENSIONS:
flash("Unable to save uploaded picture.")
return ""
# Make filename unique and secure
filename = str(id)+"_"+secure_filename(file.filename)
uploaded_file = os.path.join(app.config['UPLOAD_FOLDER'],"u_"+filename)
# First save the original uploaded picture in upload_folder
file.save(uploaded_file)
try:
# Try to resize the picture
fd_img = open(uploaded_file, 'r')
img = Image.open(fd_img)
img = resizeimage.resize_contain(img, [400, 300])
img.save(os.path.join(app.config['UPLOAD_FOLDER'],filename), img.format)
fd_img.close()
os.remove(uploaded_file)
except:
# Could not resize, just use the uploaded file instead
os.rename(uploaded_file, os.path.join(app.config['UPLOAD_FOLDER'], filename))
return filename
def addBook(genre_id):
"""
This method adds a new book to the catalog.
It takes given image and resize it to thumbanil size
and saves it in the given folder.
"""
if 'username' not in login_session:
return redirect(url_for('showLogin'))
else:
if request.method == 'POST':
if request.form['name'] and request.form['price']:
newbook = Book(name = request.form['name'],
description = request.form['description'],
price = request.form['price'],
genre_id = genre_id,
user_id=login_session.get('user_id') )
file = request.files['picture']
if file and allowed_file(file.filename):
filename = secure_filename(file.filename)
with Image.open(file) as image:
image = resizeimage.resize_contain(image, [100, 150])
image.save(os.path.join(app.config['UPLOAD_FOLDER'], filename))
newbook.picture = filename
session.add(newbook)
session.commit()
flash("New book added successfully!!")
return redirect(url_for('displayBooks', genre_id = genre_id))
else:
return render_template('addBook.html', genre_id = genre_id,
login_session = login_session)
def FER2013_Validation_Set (self):
Validation_labels = []
Validation_Images = []
path = self.path + 'FER2013-Validation.csv'
with open(path) as csvfile:
readCSV = csv.reader(csvfile, delimiter = ',')
#row[0] = Labels, row[1] = Image Pixels
for row in readCSV:
Label = int(row[0])
#Label = [0] * 7
#Label[int(row[0])] = 1
Validation_labels.append(Label)
image = row[1].split()
#Cast strings to integer
image = [int(i) for i in image]
#Convert 1D array to 2D array 48x48
Image48x48 = np.reshape(image, (48, 48))
#Convert 2D array to Image
Image84x84 = Image.fromarray(np.uint8(Image48x48))
#Resize Image to 84x84
Image84x84 = resizeimage.resize_contain(Image84x84, [84, 84])
#Convert Image to 2D array
Image84x84 = np.uint8(Image84x84.convert('L'))
Validation_Images.append(Image84x84)
return Validation_labels, np.array(Validation_Images)
def resize_img(self, filename, size=(299, 299)):
"""Resize image using padding.
Resized image is stored in `dest_dir`.
Args:
filename (str): Filename of specific image.
size (Tuple[int, int], optional): Output image shape. Defaults to (299, 299).
"""
img = Image.open(join(self.source_dir, filename))
orig_width, orig_height = img.size
wanted_width, wanted_height = size
ratio_w, ratio_h = wanted_width / orig_width, wanted_height / orig_height
enlarge_factor = min(ratio_h, ratio_w)
if enlarge_factor > 1:
# Both sides of the image are shorter than the desired dimension,
# so take the side that's closer in size and enlarge the image
# in both directions to make that one fit
enlarged_size = (
int(orig_width * enlarge_factor),
int(orig_height * enlarge_factor),
)
img = img.resize(enlarged_size)
# Now we have an image that's either larger than the desired shape
# or at least one side matches the desired shape and we can resize
# with contain
res = resizeimage.resize_contain(img, size).convert("RGB")
res.save(join(self.dest_dir, filename), res.format)
def resize_file(in_file):
fd_img = open(in_file, 'r')
img = Image.open(fd_img)
img = resizeimage.resize_contain(img, [299, 299])
# img.save('google-image-0504-resized.jpeg', img.format)
img.save((in_file.rsplit(".", 1)[0]) + '-resized.jpeg', img.format)
fd_img.close()
os.remove(in_file)
def ReFormat(ImageDir, Name):
Filename = ImageDirectoryIn + ImageDir + '/' + Name
with open(Filename, 'r+b') as f:
with Image.open(f) as image:
cover = resizeimage.resize_contain(image, [300, 300])
if not os.path.exists(ImageDirectoryOut + ImageDir + '/'):
os.makedirs(ImageDirectoryOut + ImageDir + '/')
cover.save(ImageDirectoryOut + ImageDir + '/' + Name, image.format)
def draw_image(self):
print('Drawing new image')
resized = resizeimage.resize_contain(self.original, self.screen_dim)
self.image = ImageTk.PhotoImage(resized)
self.display.delete("IMG")
self.time_before = time.time() * 1000
self.display.create_image(0, 0, image=self.image, anchor=NW, tags="IMG")
def ReFormat(ImageDir, Name, Number):
with open(ImageDir, 'r+b') as f:
try:
with Image.open(f) as image:
cover = resizeimage.resize_contain(image, [300, 300])
cover.save(ImageDirectoryOut + Name + '_' + Number + '.jpg',
image.format)
except OSError:
print("Error")
def Preprocess_Data(directory_path):
i = 0
for img_path in glob.glob(directory_path + '/*.*'):
with Image.open(img_path) as image:
gray_resizedImage = resizeimage.resize_contain(
image, [240, 160]).convert('L') # Source - Stackoverflow
pixels = list(gray_resizedImage.getdata())
A[i] = pixels
i += 1
def rescale(dir,dir_new,size):
for img in os.listdir(dir):
if img.endswith('.jpg'):
with open(dir+img, 'r+b') as f:
with Image.open(f) as image:
cover = resizeimage.resize_contain(image, [size, size])
cover.save(dir_new+img, cover.format)
print ('Finished')
def resizeImages(fileNames):
fileNames.append('10000.png') #mage leah
for fileName in fileNames:
with open('%s%s' % (RAW_IMAGE_OUTPUT_LOCATION, fileName), 'r+b') as f:
with Image.open(f) as image:
cover = resizeimage.resize_contain(image, [100, 100])
cover.save('%s%s' % (IMAGE_OUTPUT_LOCATION, fileName), image.format)
def read_and_save_image(image, filename, size=[256, 256]):
img = Image.open(image, 'r')
img = resizeimage.resize_contain(img, size)
img = img.convert('RGB')
if np.array(img).shape == (256, 256, 3):
return ImageUpload.save_image(img, filename)
else:
return ''
def rescale(dir, dir_new, size):
for img in os.listdir(dir):
if img.endswith('.jpg'):
with open(dir + img, 'r+b') as f:
with Image.open(f) as image:
cover = resizeimage.resize_contain(image, [size, size])
cover.save(dir_new + img, cover.format)
print('Finished')
def test_size(url, photoB):
distances = []
times = []
resizes = list(range(100, 10, -5))
for resize in range(100, 10, -5):
resize *= 0.01
print resize
start = time.time()
stored_file = BytesIO(urllib2.urlopen(url).read())
with Image.open(stored_file) as image:
width, height = image.size
imageA = resizeimage.resize_contain(
image, [int(resize * width),
int(resize * height)])
imageA.save("imageA.png")
with Image.open(photoB) as image:
width, height = image.size
imageB = resizeimage.resize_contain(
image, [int(resize * width),
int(resize * height)])
imageB.save("imageB.png")
try:
known_picture = face_recognition.load_image_file("imageA.png")
known_face_encoding = face_recognition.face_encodings(
known_picture)[0]
unknown_picture = face_recognition.load_image_file("imageB.png")
unknown_face_encoding = face_recognition.face_encodings(
unknown_picture)[0]
score = face_recognition.face_distance([known_face_encoding],
unknown_face_encoding)[0]
print 1 - score
print(time.time() - start)
distances.append(1 - score)
times.append(time.time() - start)
except:
break
print distances
print times
print resizes
return (distances, times, resizes)
def test_resize_contain_larger_size(self):
"""
Test that the image resized with resize_contain
has the expected size
"""
with self._open_test_image() as img:
img = resizeimage.resize_contain(img, [801, 534])
filename = self._tmp_filename('resize-contain-larger.jpeg')
img.save(filename, img.format)
with Image.open(filename) as image:
self.assertEqual(image.size, (801, 534))
def create_loop_thumbnail(self, loop_file):
"""
Creates a thumbnail for the specified video loop, which is already in self.path
:param loop_file: Video file (inc extension), relative to self.path
"""
vlc_cmd = 'vlc \"' + os.path.join(self.path, loop_file) + '\" --rate=1 --scene-prefix=video_thumb --video-filter=scene --vout=dummy --aout=dummy --start-time=1 --stop-time=2 --scene-replace --scene-format=jpg --scene-path=\"' + self.thumb_path + '\" -V dummy --intf=dummy --dummy-quiet vlc://quit'
ret_code = os.system(vlc_cmd)
if ret_code == 0:
with open(os.path.join(self.thumb_path, 'video_thumb.jpg'), 'r+b') as img_file:
with Image.open(img_file) as image:
sized_thumb = resizeimage.resize_contain(image, [88,50])
sized_thumb.save(os.path.join(self.thumb_path, os.path.splitext(loop_file)[0] + '.jpg'), image.format)
return True
def generate():
for size, image_file in get_all_files().items():
try:
os.remove(os.path.join(OUTPUT_DIR, image_file))
except FileNotFoundError:
continue
with open(ORIGINAL_IMAGE_PATH, 'rb') as original_image_file:
with Image.open(original_image_file) as original_image:
for size, image_name in get_all_files().items():
new_image = resizeimage.resize_contain(original_image, size)
new_image.save(os.path.join(OUTPUT_DIR, image_name), original_image.format)
favicon_image_details = [('icon', get_size_string(*size), filename) for size, filename in build_favicon_filenames().items()]
apple_image_details = [('apple-touch-icon-precomposed', get_size_string(*size), filename) for size, filename in build_apple_filenames().items()]
return favicon_image_details + apple_image_details
def test_resize_contain_bgcolor(self):
"""
Test that the image resized with resize_contain
and a bgcolor has the correct background color
in the background
"""
with self._open_test_image() as img:
# testcolor evaluation only works when doing a (R,G,B)-type
# color, not a hexstring, though its totally valid to send
# a hexstring
testcolor = (127, 128, 0)
img = resizeimage.resize_contain(img, [200, 100], testcolor)
filename = self._tmp_filename('resize-contain-bgcolor.jpeg')
img.save(filename, img.format)
with Image.open(filename) as image:
image_rgb = image.convert('RGB')
self.assertEqual(image_rgb.getpixel((1, 1)), testcolor)
def build_thumb(self, name):
"""
Deploys dynamic methods for on-demand thumbnails creation with any
size.
Syntax::
get_thumbnail_[WIDTH]x[HEIGHT]_[METHOD]
Where *WIDTH* and *HEIGHT* are the pixels of the new thumbnail and
*METHOD* can be ``url`` or ``filename``.
Example usage::
>>> photo = Photo(photo="/tmp/example.jpg", ...)
>>> photo.save()
>>> photo.get_thumbnail_320x240_url()
u"http://media.example.net/photos/2008/02/26/example_320x240.jpg"
>>> photo.get_thumbnail_320x240_filename()
u"/srv/media/photos/2008/02/26/example_320x240.jpg"
"""
match = re.match(GET_THUMB_PATTERN, name)
if match is None:
raise AttributeError, name
width, height, method = match.groups()
size = int(width), int(height)
def get_image_thumbnail_filename():
file, ext = path.splitext(self.get_image_path())
return file + "_%sx%s" % size + ext
def get_image_thumbnail_url():
url, ext = path.splitext(self.image_url)
return url + "_%sx%s" % size + ext
thumbnail = get_image_thumbnail_filename()
if not path.exists(thumbnail):
img = Image.open(self.get_image_path())
image = resizeimage.resize_contain(img, size)
image.save(thumbnail)
image.close()
if method == "url":
return get_image_thumbnail_url()
else:
return get_image_thumbnail_filename()
from PIL import Image
from resizeimage import resizeimage
import os
'''
Resize all .jpg files in current directory to 400x300 pixels,
new picture name will be: pic_{number}.jpg
'''
i = 0
for filename in os.listdir("./"):
if filename.endswith(".jpg"):
i = i + 1
new_filename = "pic_"+str(i)+".jpg"
try:
# Try to resize the picture
fd_img = open(filename, 'r')
img = Image.open(fd_img)
img = resizeimage.resize_contain(img, [400, 300])
img.save(new_filename, img.format)
fd_img.close()
print "Resized %s into %s" % (filename, new_filename)
except:
# Could not resize, just use the uploaded file instead
print "Couldn't resize %s, renamed it to %s" % (filename, new_filename)
os.rename(filename, new_filename)
print "Processed %d files." % (i)
