# -*- coding: utf-8 -*- # Copyright 2014-2016 OpenMarket Ltd # # 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. import logging from io import BytesIO import PIL.Image as Image logger = logging.getLogger(__name__) EXIF_ORIENTATION_TAG = 0x0112 EXIF_TRANSPOSE_MAPPINGS = { 2: Image.FLIP_LEFT_RIGHT, 3: Image.ROTATE_180, 4: Image.FLIP_TOP_BOTTOM, 5: Image.TRANSPOSE, 6: Image.ROTATE_270, 7: Image.TRANSVERSE, 8: Image.ROTATE_90, } class Thumbnailer(object): FORMATS = {"image/jpeg": "JPEG", "image/png": "PNG"} def __init__(self, input_path): self.image = Image.open(input_path) self.width, self.height = self.image.size self.transpose_method = None try: # We don't use ImageOps.exif_transpose since it crashes with big EXIF image_exif = self.image._getexif() if image_exif is not None: image_orientation = image_exif.get(EXIF_ORIENTATION_TAG) self.transpose_method = EXIF_TRANSPOSE_MAPPINGS.get(image_orientation) except Exception as e: # A lot of parsing errors can happen when parsing EXIF logger.info("Error parsing image EXIF information: %s", e) def transpose(self): """Transpose the image using its EXIF Orientation tag Returns: Tuple[int, int]: (width, height) containing the new image size in pixels. """ if self.transpose_method is not None: self.image = self.image.transpose(self.transpose_method) self.width, self.height = self.image.size self.transpose_method = None # We don't need EXIF any more self.image.info["exif"] = None return self.image.size def aspect(self, max_width, max_height): """Calculate the largest size that preserves aspect ratio which fits within the given rectangle:: (w_in / h_in) = (w_out / h_out) w_out = min(w_max, h_max * (w_in / h_in)) h_out = min(h_max, w_max * (h_in / w_in)) Args: max_width: The largest possible width. max_height: The larget possible height. """ if max_width * self.height < max_height * self.width: return max_width, (max_width * self.height) // self.width else: return (max_height * self.width) // self.height, max_height def scale(self, width, height, output_type): """Rescales the image to the given dimensions. Returns: BytesIO: the bytes of the encoded image ready to be written to disk """ scaled = self.image.resize((width, height), Image.ANTIALIAS) return self._encode_image(scaled, output_type) def crop(self, width, height, output_type): """Rescales and crops the image to the given dimensions preserving aspect:: (w_in / h_in) = (w_scaled / h_scaled) w_scaled = max(w_out, h_out * (w_in / h_in)) h_scaled = max(h_out, w_out * (h_in / w_in)) Args: max_width: The largest possible width. max_height: The larget possible height. Returns: BytesIO: the bytes of the encoded image ready to be written to disk """ if width * self.height > height * self.width: scaled_height = (width * self.height) // self.width scaled_image = self.image.resize((width, scaled_height), Image.ANTIALIAS) crop_top = (scaled_height - height) // 2 crop_bottom = height + crop_top cropped = scaled_image.crop((0, crop_top, width, crop_bottom)) else: scaled_width = (height * self.width) // self.height scaled_image = self.image.resize((scaled_width, height), Image.ANTIALIAS) crop_left = (scaled_width - width) // 2 crop_right = width + crop_left cropped = scaled_image.crop((crop_left, 0, crop_right, height)) return self._encode_image(cropped, output_type) def _encode_image(self, output_image, output_type): output_bytes_io = BytesIO() output_image.save(output_bytes_io, self.FORMATS[output_type], quality=80) return output_bytes_io