""" Imagekit Image "ImageProcessors" A processor defines a set of class variables (optional) and a class method named "process" which processes the supplied image using the class properties as settings. The process method can be overridden as well allowing user to define their own effects/processes entirely. """ from imagekit.lib import * class ImageProcessor(object): """ Base image processor class """ def process(self, img, fmt, obj, spec): return img, fmt class Adjust(ImageProcessor): def __init__(self, color=1.0, brightness=1.0, contrast=1.0, sharpness=1.0): self.color = color self.brightness = brightness self.contrast = contrast self.sharpness = sharpness def process(self, img, fmt, obj, spec): img = img.convert('RGB') for name in ['Color', 'Brightness', 'Contrast', 'Sharpness']: factor = getattr(self, name.lower()) if factor != 1.0: try: img = getattr(ImageEnhance, name)(img).enhance(factor) except ValueError: pass return img, fmt class Reflection(ImageProcessor): background_color = '#FFFFFF' size = 0.0 opacity = 0.6 def process(self, img, fmt, obj, spec): # convert bgcolor string to rgb value background_color = ImageColor.getrgb(self.background_color) # handle palleted images img = img.convert('RGB') # copy orignial image and flip the orientation reflection = img.copy().transpose(Image.FLIP_TOP_BOTTOM) # create a new image filled with the bgcolor the same size background = Image.new("RGB", img.size, background_color) # calculate our alpha mask start = int(255 - (255 * self.opacity)) # The start of our gradient steps = int(255 * self.size) # the number of intermedite values increment = (255 - start) / float(steps) mask = Image.new('L', (1, 255)) for y in range(255): if y < steps: val = int(y * increment + start) else: val = 255 mask.putpixel((0, y), val) alpha_mask = mask.resize(img.size) # merge the reflection onto our background color using the alpha mask reflection = Image.composite(background, reflection, alpha_mask) # crop the reflection reflection_height = int(img.size[1] * self.size) reflection = reflection.crop((0, 0, img.size[0], reflection_height)) # create new image sized to hold both the original image and the reflection composite = Image.new("RGB", (img.size[0], img.size[1]+reflection_height), background_color) # paste the orignal image and the reflection into the composite image composite.paste(img, (0, 0)) composite.paste(reflection, (0, img.size[1])) # Save the file as a JPEG fmt = 'JPEG' # return the image complete with reflection effect return composite, fmt class _Resize(ImageProcessor): width = None height = None crop = False upscale = False def __init__(self, width=None, height=None, crop=None, upscale=None): if width is not None: self.width = width if height is not None: self.height = height if crop is not None: self.crop = crop if upscale is not None: self.upscale = upscale def process(self, img, fmt, obj, spec): cur_width, cur_height = img.size if self.crop: crop_horz = getattr(obj, obj._ik.crop_horz_field, 1) crop_vert = getattr(obj, obj._ik.crop_vert_field, 1) ratio = max(float(self.width)/cur_width, float(self.height)/cur_height) resize_x, resize_y = ((cur_width * ratio), (cur_height * ratio)) crop_x, crop_y = (abs(self.width - resize_x), abs(self.height - resize_y)) x_diff, y_diff = (int(crop_x / 2), int(crop_y / 2)) box_left, box_right = { 0: (0, self.width), 1: (int(x_diff), int(x_diff + self.width)), 2: (int(crop_x), int(resize_x)), }[crop_horz] box_upper, box_lower = { 0: (0, self.height), 1: (int(y_diff), int(y_diff + self.height)), 2: (int(crop_y), int(resize_y)), }[crop_vert] box = (box_left, box_upper, box_right, box_lower) img = img.resize((int(resize_x), int(resize_y)), Image.ANTIALIAS).crop(box) else: if not self.width is None and not self.height is None: ratio = min(float(self.width)/cur_width, float(self.height)/cur_height) else: if self.width is None: ratio = float(self.height)/cur_height else: ratio = float(self.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 self.upscale: return img, fmt img = img.resize(new_dimensions, Image.ANTIALIAS) return img, fmt class Crop(_Resize): def __init__(self, width=None, height=None): super(Crop, self).__init__(width, height, crop=True) class Fit(_Resize): def __init__(self, width=None, height=None, upscale=None): super(Fit, self).__init__(width, height, crop=False, upscale=upscale) class Transpose(ImageProcessor): """ Rotates or flips the image Method should be one of the following strings: - FLIP_LEFT RIGHT - FLIP_TOP_BOTTOM - ROTATE_90 - ROTATE_270 - ROTATE_180 - auto If method is set to 'auto' the processor will attempt to rotate the image according to the EXIF Orientation data. """ EXIF_ORIENTATION_STEPS = { 1: [], 2: ['FLIP_LEFT_RIGHT'], 3: ['ROTATE_180'], 4: ['FLIP_TOP_BOTTOM'], 5: ['ROTATE_270', 'FLIP_LEFT_RIGHT'], 6: ['ROTATE_270'], 7: ['ROTATE_90', 'FLIP_LEFT_RIGHT'], 8: ['ROTATE_90'], } method = 'auto' def process(self, img, fmt, obj, spec): if self.method == 'auto': try: orientation = Image.open(spec._get_imgfield(obj).file)._getexif()[0x0112] ops = self.EXIF_ORIENTATION_STEPS[orientation] except: ops = [] else: ops = [self.method] for method in ops: img = img.transpose(getattr(Image, method)) return img, fmt