Mercurial > public > madeira
view photologue/models.py @ 121:095be78bf0fa
Bootstrap: table and title styling.
author | Brian Neal <bgneal@gmail.com> |
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date | Sat, 26 Oct 2013 17:15:55 -0500 |
parents | dcd097a59223 |
children | 762e46d0bb4a |
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import os import random import zipfile from datetime import datetime from inspect import isclass from django.db import models from django.db.models.signals import post_init from django.conf import settings from django.core.files.base import ContentFile from django.core.urlresolvers import reverse from django.utils.text import slugify from django.utils.functional import curry from django.utils.translation import ugettext_lazy as _ # Required PIL classes may or may not be available from the root namespace # depending on the installation method used. try: import Image import ImageFile import ImageFilter import ImageEnhance except ImportError: try: from PIL import Image from PIL import ImageFile from PIL import ImageFilter from PIL import ImageEnhance except ImportError: raise ImportError(_('Photologue was unable to import the Python Imaging Library. Please confirm it`s installed and available on your current Python path.')) # attempt to load the django-tagging TagField from default location, # otherwise we substitude a dummy TagField. try: from tagging.fields import TagField tagfield_help_text = _('Separate tags with spaces, put quotes around multiple-word tags.') except ImportError: class TagField(models.CharField): def __init__(self, **kwargs): default_kwargs = {'max_length': 255, 'blank': True} default_kwargs.update(kwargs) super(TagField, self).__init__(**default_kwargs) def get_internal_type(self): return 'CharField' tagfield_help_text = _('Django-tagging was not found, tags will be treated as plain text.') from utils import EXIF from utils.reflection import add_reflection from utils.watermark import apply_watermark # Path to sample image SAMPLE_IMAGE_PATH = getattr(settings, 'SAMPLE_IMAGE_PATH', os.path.join(os.path.dirname(__file__), 'res', 'sample.jpg')) # os.path.join(settings.PROJECT_PATH, 'photologue', 'res', 'sample.jpg' # Modify image file buffer size. ImageFile.MAXBLOCK = getattr(settings, 'PHOTOLOGUE_MAXBLOCK', 256 * 2 ** 10) # Photologue image path relative to media root PHOTOLOGUE_DIR = getattr(settings, 'PHOTOLOGUE_DIR', 'photologue') # Look for user function to define file paths PHOTOLOGUE_PATH = getattr(settings, 'PHOTOLOGUE_PATH', None) if PHOTOLOGUE_PATH is not None: if callable(PHOTOLOGUE_PATH): get_storage_path = PHOTOLOGUE_PATH else: parts = PHOTOLOGUE_PATH.split('.') module_name = '.'.join(parts[:-1]) module = __import__(module_name) get_storage_path = getattr(module, parts[-1]) else: def get_storage_path(instance, filename): return os.path.join(PHOTOLOGUE_DIR, 'photos', filename) # Quality options for JPEG images JPEG_QUALITY_CHOICES = ( (30, _('Very Low')), (40, _('Low')), (50, _('Medium-Low')), (60, _('Medium')), (70, _('Medium-High')), (80, _('High')), (90, _('Very High')), ) # choices for new crop_anchor field in Photo CROP_ANCHOR_CHOICES = ( ('top', _('Top')), ('right', _('Right')), ('bottom', _('Bottom')), ('left', _('Left')), ('center', _('Center (Default)')), ) IMAGE_TRANSPOSE_CHOICES = ( ('FLIP_LEFT_RIGHT', _('Flip left to right')), ('FLIP_TOP_BOTTOM', _('Flip top to bottom')), ('ROTATE_90', _('Rotate 90 degrees counter-clockwise')), ('ROTATE_270', _('Rotate 90 degrees clockwise')), ('ROTATE_180', _('Rotate 180 degrees')), ) WATERMARK_STYLE_CHOICES = ( ('tile', _('Tile')), ('scale', _('Scale')), ) # Prepare a list of image filters filter_names = [] for n in dir(ImageFilter): klass = getattr(ImageFilter, n) if isclass(klass) and issubclass(klass, ImageFilter.BuiltinFilter) and \ hasattr(klass, 'name'): filter_names.append(klass.__name__) IMAGE_FILTERS_HELP_TEXT = _('Chain multiple filters using the following pattern "FILTER_ONE->FILTER_TWO->FILTER_THREE". Image filters will be applied in order. The following filters are available: %s.' % (', '.join(filter_names))) class Gallery(models.Model): date_added = models.DateTimeField(_('date published'), default=datetime.now) title = models.CharField(_('title'), max_length=100, unique=True) title_slug = models.SlugField(_('title slug'), unique=True, help_text=_('A "slug" is a unique URL-friendly title for an object.')) description = models.TextField(_('description'), blank=True) is_public = models.BooleanField(_('is public'), default=True, help_text=_('Public galleries will be displayed in the default views.')) photos = models.ManyToManyField('Photo', related_name='galleries', verbose_name=_('photos'), null=True, blank=True) tags = TagField(help_text=tagfield_help_text, verbose_name=_('tags')) class Meta: ordering = ['-date_added'] get_latest_by = 'date_added' verbose_name = _('gallery') verbose_name_plural = _('galleries') def __unicode__(self): return self.title def __str__(self): return self.__unicode__() def get_absolute_url(self): return reverse('pl-gallery', args=[self.title_slug]) def latest(self, limit=0, public=True): if limit == 0: limit = self.photo_count() if public: return self.public()[:limit] else: return self.photos.all()[:limit] def sample(self, count=0, public=True): if count == 0 or count > self.photo_count(): count = self.photo_count() if public: photo_set = self.public() else: photo_set = self.photos.all() return random.sample(photo_set, count) def photo_count(self, public=True): if public: return self.public().count() else: return self.photos.all().count() photo_count.short_description = _('count') def public(self): return self.photos.filter(is_public=True) class GalleryUpload(models.Model): zip_file = models.FileField(_('images file (.zip)'), upload_to=PHOTOLOGUE_DIR+"/temp", help_text=_('Select a .zip file of images to upload into a new Gallery.')) gallery = models.ForeignKey(Gallery, null=True, blank=True, help_text=_('Select a gallery to add these images to. leave this empty to create a new gallery from the supplied title.')) title = models.CharField(_('title'), max_length=75, help_text=_('All photos in the gallery will be given a title made up of the gallery title + a sequential number.')) caption = models.TextField(_('caption'), blank=True, help_text=_('Caption will be added to all photos.')) description = models.TextField(_('description'), blank=True, help_text=_('A description of this Gallery.')) is_public = models.BooleanField(_('is public'), default=True, help_text=_('Uncheck this to make the uploaded gallery and included photographs private.')) tags = models.CharField(max_length=255, blank=True, help_text=tagfield_help_text, verbose_name=_('tags')) class Meta: verbose_name = _('gallery upload') verbose_name_plural = _('gallery uploads') def save(self): super(GalleryUpload, self).save() self.process_zipfile() super(GalleryUpload, self).delete() def process_zipfile(self): if os.path.isfile(self.zip_file.path): # TODO: implement try-except here zip = zipfile.ZipFile(self.zip_file.path) bad_file = zip.testzip() if bad_file: raise Exception('"%s" in the .zip archive is corrupt.' % bad_file) count = 1 if self.gallery: gallery = self.gallery else: gallery = Gallery.objects.create(title=self.title, title_slug=slugify(self.title), description=self.description, is_public=self.is_public, tags=self.tags) from cStringIO import StringIO for filename in zip.namelist(): if filename.startswith('__'): # do not process meta files continue data = zip.read(filename) if len(data): try: # the following is taken from django.newforms.fields.ImageField: # load() is the only method that can spot a truncated JPEG, # but it cannot be called sanely after verify() trial_image = Image.open(StringIO(data)) trial_image.load() # verify() is the only method that can spot a corrupt PNG, # but it must be called immediately after the constructor trial_image = Image.open(StringIO(data)) trial_image.verify() except Exception: # if a "bad" file is found we just skip it. continue while 1: title = ' '.join([self.title, str(count)]) slug = slugify(title) try: p = Photo.objects.get(title_slug=slug) except Photo.DoesNotExist: photo = Photo(title=title, title_slug=slug, caption=self.caption, is_public=self.is_public, tags=self.tags) photo.image.save(filename, ContentFile(data)) gallery.photos.add(photo) count = count + 1 break count = count + 1 zip.close() class ImageModel(models.Model): image = models.ImageField(_('image'), upload_to=get_storage_path) date_taken = models.DateTimeField(_('date taken'), null=True, blank=True, editable=False) view_count = models.PositiveIntegerField(default=0, editable=False) crop_from = models.CharField(_('crop from'), blank=True, max_length=10, default='center', choices=CROP_ANCHOR_CHOICES) effect = models.ForeignKey('PhotoEffect', null=True, blank=True, related_name="%(class)s_related", verbose_name=_('effect')) class Meta: abstract = True @property def EXIF(self): try: return EXIF.process_file(open(self.image.path, 'rb')) except: try: return EXIF.process_file(open(self.image.path, 'rb'), details=False) except: return {} def admin_thumbnail(self): func = getattr(self, 'get_admin_thumbnail_url', None) if func is None: return _('An "admin_thumbnail" photo size has not been defined.') else: if hasattr(self, 'get_absolute_url'): return u'<a href="%s"><img src="%s"></a>' % \ (self.get_absolute_url(), func()) else: return u'<a href="%s"><img src="%s"></a>' % \ (self.image.url, func()) admin_thumbnail.short_description = _('Thumbnail') admin_thumbnail.allow_tags = True def cache_path(self): return os.path.join(os.path.dirname(self.image.path), "cache") def cache_url(self): return '/'.join([os.path.dirname(self.image.url), "cache"]) def image_filename(self): return os.path.basename(self.image.path) def _get_filename_for_size(self, size): size = getattr(size, 'name', size) base, ext = os.path.splitext(self.image_filename()) return ''.join([base, '_', size, ext]) def _get_SIZE_photosize(self, size): return PhotoSizeCache().sizes.get(size) def _get_SIZE_size(self, size): photosize = PhotoSizeCache().sizes.get(size) if not self.size_exists(photosize): self.create_size(photosize) return Image.open(self._get_SIZE_filename(size)).size def _get_SIZE_url(self, size): photosize = PhotoSizeCache().sizes.get(size) if not self.size_exists(photosize): self.create_size(photosize) if photosize.increment_count: self.view_count += 1 self.save(update=True) return '/'.join([self.cache_url(), self._get_filename_for_size(photosize.name)]) def _get_SIZE_filename(self, size): photosize = PhotoSizeCache().sizes.get(size) return os.path.join(self.cache_path(), self._get_filename_for_size(photosize.name)) def add_accessor_methods(self, *args, **kwargs): for size in PhotoSizeCache().sizes.keys(): setattr(self, 'get_%s_size' % size, curry(self._get_SIZE_size, size=size)) setattr(self, 'get_%s_photosize' % size, curry(self._get_SIZE_photosize, size=size)) setattr(self, 'get_%s_url' % size, curry(self._get_SIZE_url, size=size)) setattr(self, 'get_%s_filename' % size, curry(self._get_SIZE_filename, size=size)) def size_exists(self, photosize): func = getattr(self, "get_%s_filename" % photosize.name, None) if func is not None: if os.path.isfile(func()): return True return False def resize_image(self, im, photosize): cur_width, cur_height = im.size new_width, new_height = photosize.size if photosize.crop: ratio = max(float(new_width)/cur_width,float(new_height)/cur_height) x = (cur_width * ratio) y = (cur_height * ratio) xd = abs(new_width - x) yd = abs(new_height - y) x_diff = int(xd / 2) y_diff = int(yd / 2) if self.crop_from == 'top': box = (int(x_diff), 0, int(x_diff+new_width), new_height) elif self.crop_from == 'left': box = (0, int(y_diff), new_width, int(y_diff+new_height)) elif self.crop_from == 'bottom': box = (int(x_diff), int(yd), int(x_diff+new_width), int(y)) # y - yd = new_height elif self.crop_from == 'right': box = (int(xd), int(y_diff), int(x), int(y_diff+new_height)) # x - xd = new_width else: box = (int(x_diff), int(y_diff), int(x_diff+new_width), int(y_diff+new_height)) im = im.resize((int(x), int(y)), Image.ANTIALIAS).crop(box) else: if not new_width == 0 and not new_height == 0: ratio = min(float(new_width)/cur_width, float(new_height)/cur_height) else: if new_width == 0: ratio = float(new_height)/cur_height else: ratio = float(new_width)/cur_width new_dimensions = (int(round(cur_width*ratio)), int(round(cur_height*ratio))) if new_dimensions[0] > cur_width or \ new_dimensions[1] > cur_height: if not photosize.upscale: return im im = im.resize(new_dimensions, Image.ANTIALIAS) return im def create_size(self, photosize): if self.size_exists(photosize): return if not os.path.isdir(self.cache_path()): os.makedirs(self.cache_path()) try: im = Image.open(self.image.path) except IOError: return # Apply effect if found if self.effect is not None: im = self.effect.pre_process(im) elif photosize.effect is not None: im = photosize.effect.pre_process(im) # Resize/crop image if im.size != photosize.size: im = self.resize_image(im, photosize) # Apply watermark if found if photosize.watermark is not None: im = photosize.watermark.post_process(im) # Apply effect if found if self.effect is not None: im = self.effect.post_process(im) elif photosize.effect is not None: im = photosize.effect.post_process(im) # Save file im_filename = getattr(self, "get_%s_filename" % photosize.name)() try: if im.format == 'JPEG': im.save(im_filename, 'JPEG', quality=int(photosize.quality), optimize=True) else: im.save(im_filename) except IOError, e: if os.path.isfile(im_filename): os.unlink(im_filename) raise e def remove_size(self, photosize, remove_dirs=True): if not self.size_exists(photosize): return filename = getattr(self, "get_%s_filename" % photosize.name)() if os.path.isfile(filename): os.remove(filename) if remove_dirs: self.remove_cache_dirs() def clear_cache(self): cache = PhotoSizeCache() for photosize in cache.sizes.values(): self.remove_size(photosize, False) self.remove_cache_dirs() def pre_cache(self): cache = PhotoSizeCache() for photosize in cache.sizes.values(): if photosize.pre_cache: self.create_size(photosize) def remove_cache_dirs(self): try: os.removedirs(self.cache_path()) except: pass def save(self, update=False): if update: models.Model.save(self) return if self.date_taken is None: try: exif_date = self.EXIF.get('EXIF DateTimeOriginal', None) if exif_date is not None: d, t = str.split(exif_date.values) year, month, day = d.split(':') hour, minute, second = t.split(':') self.date_taken = datetime(int(year), int(month), int(day), int(hour), int(minute), int(second)) except: pass if self.date_taken is None: self.date_taken = datetime.now() if self._get_pk_val(): self.clear_cache() super(ImageModel, self).save() self.pre_cache() def delete(self): self.clear_cache() super(ImageModel, self).delete() class Photo(ImageModel): title = models.CharField(_('title'), max_length=100, unique=True) title_slug = models.SlugField(_('slug'), unique=True, help_text=('A "slug" is a unique URL-friendly title for an object.')) caption = models.TextField(_('caption'), blank=True) date_added = models.DateTimeField(_('date added'), default=datetime.now, editable=False) is_public = models.BooleanField(_('is public'), default=True, help_text=_('Public photographs will be displayed in the default views.')) tags = TagField(help_text=tagfield_help_text, verbose_name=_('tags')) class Meta: ordering = ['-date_added'] get_latest_by = 'date_added' verbose_name = _("photo") verbose_name_plural = _("photos") def __unicode__(self): return self.title def __str__(self): return self.__unicode__() def save(self, update=False): if self.title_slug is None: self.title_slug = slugify(self.title) super(Photo, self).save(update) def get_absolute_url(self): return reverse('pl-photo', args=[self.title_slug]) def public_galleries(self): """Return the public galleries to which this photo belongs.""" return self.galleries.filter(is_public=True) class BaseEffect(models.Model): name = models.CharField(_('name'), max_length=30, unique=True) description = models.TextField(_('description'), blank=True) class Meta: abstract = True def sample_dir(self): return os.path.join(settings.MEDIA_ROOT, PHOTOLOGUE_DIR, 'samples') def sample_url(self): return settings.MEDIA_URL + '/'.join([PHOTOLOGUE_DIR, 'samples', '%s %s.jpg' % (self.name.lower(), 'sample')]) def sample_filename(self): return os.path.join(self.sample_dir(), '%s %s.jpg' % (self.name.lower(), 'sample')) def create_sample(self): if not os.path.isdir(self.sample_dir()): os.makedirs(self.sample_dir()) try: im = Image.open(SAMPLE_IMAGE_PATH) except IOError: raise IOError('Photologue was unable to open the sample image: %s.' % SAMPLE_IMAGE_PATH) im = self.process(im) im.save(self.sample_filename(), 'JPEG', quality=90, optimize=True) def admin_sample(self): return u'<img src="%s">' % self.sample_url() admin_sample.short_description = 'Sample' admin_sample.allow_tags = True def pre_process(self, im): return im def post_process(self, im): return im def process(self, im): im = self.pre_process(im) im = self.post_process(im) return im def __unicode__(self): return self.name def __str__(self): return self.__unicode__() def save(self): try: os.remove(self.sample_filename()) except: pass models.Model.save(self) self.create_sample() for size in self.photo_sizes.all(): size.clear_cache() # try to clear all related subclasses of ImageModel for prop in [prop for prop in dir(self) if prop[-8:] == '_related']: for obj in getattr(self, prop).all(): obj.clear_cache() obj.pre_cache() def delete(self): try: os.remove(self.sample_filename()) except: pass super(PhotoEffect, self).delete() class PhotoEffect(BaseEffect): """ A pre-defined effect to apply to photos """ transpose_method = models.CharField(_('rotate or flip'), max_length=15, blank=True, choices=IMAGE_TRANSPOSE_CHOICES) color = models.FloatField(_('color'), default=1.0, help_text=_("A factor of 0.0 gives a black and white image, a factor of 1.0 gives the original image.")) brightness = models.FloatField(_('brightness'), default=1.0, help_text=_("A factor of 0.0 gives a black image, a factor of 1.0 gives the original image.")) contrast = models.FloatField(_('contrast'), default=1.0, help_text=_("A factor of 0.0 gives a solid grey image, a factor of 1.0 gives the original image.")) sharpness = models.FloatField(_('sharpness'), default=1.0, help_text=_("A factor of 0.0 gives a blurred image, a factor of 1.0 gives the original image.")) filters = models.CharField(_('filters'), max_length=200, blank=True, help_text=_(IMAGE_FILTERS_HELP_TEXT)) reflection_size = models.FloatField(_('size'), default=0, help_text=_("The height of the reflection as a percentage of the orignal image. A factor of 0.0 adds no reflection, a factor of 1.0 adds a reflection equal to the height of the orignal image.")) reflection_strength = models.FloatField(_('strength'), default=0.6, help_text="The initial opacity of the reflection gradient.") background_color = models.CharField(_('color'), max_length=7, default="#FFFFFF", help_text="The background color of the reflection gradient. Set this to match the background color of your page.") class Meta: verbose_name = _("photo effect") verbose_name_plural = _("photo effects") def pre_process(self, im): if self.transpose_method != '': method = getattr(Image, self.transpose_method) im = im.transpose(method) if im.mode != 'RGB' and im.mode != 'RGBA': return im for name in ['Color', 'Brightness', 'Contrast', 'Sharpness']: factor = getattr(self, name.lower()) if factor != 1.0: im = getattr(ImageEnhance, name)(im).enhance(factor) for name in self.filters.split('->'): image_filter = getattr(ImageFilter, name.upper(), None) if image_filter is not None: try: im = im.filter(image_filter) except ValueError: pass return im def post_process(self, im): if self.reflection_size != 0.0: im = add_reflection(im, bgcolor=self.background_color, amount=self.reflection_size, opacity=self.reflection_strength) return im class Watermark(BaseEffect): image = models.ImageField(_('image'), upload_to=PHOTOLOGUE_DIR+"/watermarks") style = models.CharField(_('style'), max_length=5, choices=WATERMARK_STYLE_CHOICES, default='scale') opacity = models.FloatField(_('opacity'), default=1, help_text=_("The opacity of the overlay.")) class Meta: verbose_name = _('watermark') verbose_name_plural = _('watermarks') def post_process(self, im): mark = Image.open(self.image.path) return apply_watermark(im, mark, self.style, self.opacity) class PhotoSize(models.Model): name = models.CharField(_('name'), max_length=20, unique=True, help_text=_('Photo size name should contain only letters, numbers and underscores. Examples: "thumbnail", "display", "small", "main_page_widget".')) width = models.PositiveIntegerField(_('width'), default=0, help_text=_('If width is set to "0" the image will be scaled to the supplied height.')) height = models.PositiveIntegerField(_('height'), default=0, help_text=_('If height is set to "0" the image will be scaled to the supplied width')) quality = models.PositiveIntegerField(_('quality'), choices=JPEG_QUALITY_CHOICES, default=70, help_text=_('JPEG image quality.')) upscale = models.BooleanField(_('upscale images?'), default=False, help_text=_('If selected the image will be scaled up if necessary to fit the supplied dimensions. Cropped sizes will be upscaled regardless of this setting.')) crop = models.BooleanField(_('crop to fit?'), default=False, help_text=_('If selected the image will be scaled and cropped to fit the supplied dimensions.')) pre_cache = models.BooleanField(_('pre-cache?'), default=False, help_text=_('If selected this photo size will be pre-cached as photos are added.')) increment_count = models.BooleanField(_('increment view count?'), default=False, help_text=_('If selected the image\'s "view_count" will be incremented when this photo size is displayed.')) effect = models.ForeignKey('PhotoEffect', null=True, blank=True, related_name='photo_sizes', verbose_name=_('photo effect')) watermark = models.ForeignKey('Watermark', null=True, blank=True, related_name='photo_sizes', verbose_name=_('watermark image')) class Meta: ordering = ['width', 'height'] verbose_name = _('photo size') verbose_name_plural = _('photo sizes') def __unicode__(self): return self.name def __str__(self): return self.__unicode__() def clear_cache(self): for cls in ImageModel.__subclasses__(): for obj in cls.objects.all(): obj.remove_size(self) if self.pre_cache: obj.create_size(self) PhotoSizeCache().reset() def save(self): if self.width + self.height <= 0: raise ValueError(_('A PhotoSize must have a positive height or width.')) super(PhotoSize, self).save() PhotoSizeCache().reset() self.clear_cache() def delete(self): self.clear_cache() super(PhotoSize, self).delete() def _get_size(self): return (self.width, self.height) def _set_size(self, value): self.width, self.height = value size = property(_get_size, _set_size) class PhotoSizeCache(object): __state = {"sizes": {}} def __init__(self): self.__dict__ = self.__state if not len(self.sizes): sizes = PhotoSize.objects.all() for size in sizes: self.sizes[size.name] = size def reset(self): self.sizes = {} # Set up the accessor methods def add_methods(sender, instance, signal, *args, **kwargs): """ Adds methods to access sized images (urls, paths) after the Photo model's __init__ function completes, this method calls "add_accessor_methods" on each instance. """ if hasattr(instance, 'add_accessor_methods'): instance.add_accessor_methods() # connect the add_accessor_methods function to the post_init signal post_init.connect(add_methods)