Mercurial > libervia-backend
view sat/tools/image.py @ 3345:3dc8835d96cc
plugin XEP-0234: fixed mime type in `buildFileElementFromDict`
author | Goffi <goffi@goffi.org> |
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date | Tue, 25 Aug 2020 08:51:35 +0200 |
parents | 1512cbd6c4ac |
children | 9498f32ba6f7 |
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#!/usr/bin/env python3 # SàT: an XMPP client # Copyright (C) 2009-2020 Jérôme Poisson (goffi@goffi.org) # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Affero General Public License for more details. # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. """Methods to manipulate images""" import tempfile import mimetypes from PIL import Image, ImageOps from pathlib import Path from twisted.internet import threads from sat.core.i18n import _ from sat.core import exceptions from sat.core.log import getLogger log = getLogger(__name__) try: import cairosvg except Exception as e: log.warning(_("SVG support not available, please install cairosvg: {e}").format( e=e)) cairosvg = None def check(host, path, max_size=None): """Analyze image and return a report report will indicate if image is too large, and the recommended new size if this is the case @param host: SàT instance @param path(str, pathlib.Path): image to open @param max_size(tuple[int, int]): maximum accepted size of image None to use value set in config @return dict: report on image, with following keys: - too_large: true if image is oversized - recommended_size: if too_large is True, recommended size to use """ report = {} image = Image.open(path) if max_size is None: max_size = tuple(host.memory.getConfig(None, "image_max", (1200, 720))) if image.size > max_size: report['too_large'] = True if image.size[0] > max_size[0]: factor = max_size[0] / image.size[0] if image.size[1] * factor > max_size[1]: factor = max_size[1] / image.size[1] else: factor = max_size[1] / image.size[1] report['recommended_size'] = [int(image.width*factor), int(image.height*factor)] else: report['too_large'] = False return report def _resize_blocking(image_path, new_size, dest, fix_orientation): im_path = Path(image_path) im = Image.open(im_path) resized = im.resize(new_size, Image.LANCZOS) if fix_orientation: resized = ImageOps.fix_orientation(resized) if dest is None: dest = tempfile.NamedTemporaryFile(suffix=im_path.suffix, delete=False) elif isinstance(dest, Path): dest = dest.open('wb') with dest as f: resized.save(f, format=im.format) return Path(f.name) def resize(image_path, new_size, dest=None, fix_orientation=True): """Resize an image to a new file, and return its path @param image_path(str, Path): path of the original image @param new_size(tuple[int, int]): size to use for new image @param dest(None, Path, file): where the resized image must be stored, can be: - None: use a temporary file file will be converted to PNG - Path: path to the file to create/overwrite - file: a file object which must be opened for writing in binary mode @param fix_orientation: if True, use EXIF data to set orientation @return (Path): path of the resized file. The image at this path should be deleted after use """ return threads.deferToThread( _resize_blocking, image_path, new_size, dest, fix_orientation) def _convert_blocking(image_path, dest, extra): media_type = mimetypes.guess_type(str(image_path), strict=False)[0] if dest is None: dest = tempfile.NamedTemporaryFile(suffix=".png", delete=False) filepath = Path(dest.name) elif isinstance(dest, Path): filepath = dest else: # we should have a file-like object try: name = dest.name except AttributeError: name = None if name: try: filepath = Path(name) except TypeError: filepath = Path('noname.png') else: filepath = Path('noname.png') if media_type == "image/svg+xml": if cairosvg is None: raise exceptions.MissingModule( f"Can't convert SVG image at {image_path} due to missing CairoSVG module") width, height = extra.get('width'), extra.get('height') cairosvg.svg2png( url=str(image_path), write_to=dest, output_width=width, output_height=height ) else: suffix = filepath.suffix if not suffix: raise ValueError( "A suffix is missing for destination, it is needed to determine file " "format") if not suffix in Image.EXTENSION: Image.init() try: im_format = Image.EXTENSION[suffix] except KeyError: raise ValueError( "Dest image format can't be determined, {suffix!r} suffix is unknown" ) im = Image.open(image_path) im.save(dest, format=im_format) log.debug(f"image {image_path} has been converted to {filepath}") return filepath def convert(image_path, dest=None, extra=None): """Convert an image to a new file, and return its path @param image_path(str, Path): path of the image to convert @param dest(None, Path, file): where the converted image must be stored, can be: - None: use a temporary file - Path: path to the file to create/overwrite - file: a file object which must be opened for writing in binary mode @param extra(None, dict): conversion options if image_path link to a SVG file, following options can be used: - width: destination width - height: destination height @return (Path): path of the converted file. a generic name is used if dest is an unnamed file like object """ image_path = Path(image_path) if not image_path.is_file(): raise ValueError(f"There is no file at {image_path}!") if extra is None: extra = {} return threads.deferToThread(_convert_blocking, image_path, dest, extra) def __fix_orientation_blocking(image_path): im = Image.open(image_path) im_format = im.format exif = im.getexif() orientation = exif.get(0x0112) if orientation is None or orientation<2: # nothing to do return False im = ImageOps.exif_transpose(im) im.save(image_path, im_format) log.debug(f"image {image_path} orientation has been fixed") return True def fix_orientation(image_path: Path) -> bool: """Apply orientation found in EXIF data if any @param image_path: image location, image will be modified in place @return True if image has been modified """ return threads.deferToThread(__fix_orientation_blocking, image_path) def guess_type(source): """Guess image media type @param source(str, Path, file): image to guess type @return (str, None): media type, or None if we can't guess """ if isinstance(source, str): source = Path(source) if isinstance(source, Path): # we first try to guess from file name media_type = mimetypes.guess_type(source, strict=False)[0] if media_type is not None: return media_type # file name is not enough, we try to open it img = Image.open(source) try: return Image.MIME[img.format] except KeyError: return None