def scale_one(size, smooth, sourceImage, targetImage): oldImage = Image.from_file(sourceImage) if oldImage.width <= size and oldImage.height <= size: oldImage.save(targetImage) return Result(1, 0) else: if smooth: scale = min(size / oldImage.width, size / oldImage.height) newImage = oldImage.scale(scale) else: stride = int(math.ceil(max(oldImage.width / size, oldImage.height / size))) newImage = oldImage.subsample(stride) newImage.save(targetImage) return Result(0, 1)
def scale_one(size, smooth, sourceImage, targetImage): oldImage = Image.from_file(sourceImage) if oldImage.width <= size and oldImage.height <= size: oldImage.save(targetImage) return Result(1, 0) else: if smooth: scale = min(size / oldImage.width, size / oldImage.height) newImage = oldImage.scale(scale) else: stride = int( math.ceil(max(oldImage.width / size, oldImage.height / size))) newImage = oldImage.subsample(stride) newImage.save(targetImage) return Result(0, 1)
def scale_one(size, smooth, scr_image, dest_image): old_image = Image.from_file(scr_image) if old_image.width <= size and old_image.height <= size: old_image.save(dest_image) return Result(1, 0, dest_image) else: if smooth: scale = min(size / old_image.width, size / old_image.height) new_image = old_image.scale(scale) else: stride = int(math.ceil(max(old_image.width / size, old_image.height / size))) new_image = old_image.subsample(stride) new_image.save(dest_image) return Result(0, 1, dest_image)
def scale_one(size, smooth, scr_image, dest_image): old_image = Image.from_file(scr_image) if old_image.width <= size and old_image.height <= size: old_image.save(dest_image) return Result(1, 0, dest_image) else: if smooth: scale = min(size / old_image.width, size / old_image.height) new_image = old_image.scale(scale) else: stride = int( math.ceil(max(old_image.width / size, old_image.height / size))) new_image = old_image.subsample(stride) new_image.save(dest_image) return Result(0, 1, dest_image)
def scale_one(size, smooth, sourceImage, targetImage): try: oldImage = Image.from_file(sourceImage) if oldImage.width <= size and oldImage.height <= size: oldImage.save(targetImage) return Result(1, 0, targetImage) else: if smooth: scale = min(size / oldImage.width, size / oldImage.height) newImage = oldImage.scale(scale) else: stride = int(math.ceil(max(oldImage.width / size, oldImage.height / size))) newImage = oldImage.subsample(stride) newImage.save(targetImage) return Result(0, 1, targetImage) except Exception as e: Qtrac.report("Problem scaling " + os.path.basename(sourceImage), error=True) Qtrac.report(str(e), error=True) return Result(0, 0, sourceImage)
def scale_one(size, smooth, sourceImage, targetImage): try: oldImage = Image.from_file(sourceImage) if oldImage.width <= size and oldImage.height <= size: oldImage.save(targetImage) return Result(1, 0, targetImage) else: if smooth: scale = min(size / oldImage.width, size / oldImage.height) newImage = oldImage.scale(scale) else: stride = int( math.ceil( max(oldImage.width / size, oldImage.height / size))) newImage = oldImage.subsample(stride) newImage.save(targetImage) return Result(0, 1, targetImage) except Exception as e: Qtrac.report("Problem scaling " + os.path.basename(sourceImage), error=True) Qtrac.report(str(e), error=True) return Result(0, 0, sourceImage)