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import torch |
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class LatentRebatch: |
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@classmethod |
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def INPUT_TYPES(s): |
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return {"required": { "latents": ("LATENT",), |
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"batch_size": ("INT", {"default": 1, "min": 1, "max": 4096}), |
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}} |
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RETURN_TYPES = ("LATENT",) |
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INPUT_IS_LIST = True |
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OUTPUT_IS_LIST = (True, ) |
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FUNCTION = "rebatch" |
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CATEGORY = "latent/batch" |
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@staticmethod |
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def get_batch(latents, list_ind, offset): |
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'''prepare a batch out of the list of latents''' |
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samples = latents[list_ind]['samples'] |
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shape = samples.shape |
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mask = latents[list_ind]['noise_mask'] if 'noise_mask' in latents[list_ind] else torch.ones((shape[0], 1, shape[2]*8, shape[3]*8), device='cpu') |
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if mask.shape[-1] != shape[-1] * 8 or mask.shape[-2] != shape[-2]: |
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torch.nn.functional.interpolate(mask.reshape((-1, 1, mask.shape[-2], mask.shape[-1])), size=(shape[-2]*8, shape[-1]*8), mode="bilinear") |
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if mask.shape[0] < samples.shape[0]: |
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mask = mask.repeat((shape[0] - 1) // mask.shape[0] + 1, 1, 1, 1)[:shape[0]] |
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if 'batch_index' in latents[list_ind]: |
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batch_inds = latents[list_ind]['batch_index'] |
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else: |
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batch_inds = [x+offset for x in range(shape[0])] |
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return samples, mask, batch_inds |
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@staticmethod |
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def get_slices(indexable, num, batch_size): |
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'''divides an indexable object into num slices of length batch_size, and a remainder''' |
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slices = [] |
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for i in range(num): |
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slices.append(indexable[i*batch_size:(i+1)*batch_size]) |
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if num * batch_size < len(indexable): |
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return slices, indexable[num * batch_size:] |
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else: |
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return slices, None |
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@staticmethod |
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def slice_batch(batch, num, batch_size): |
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result = [LatentRebatch.get_slices(x, num, batch_size) for x in batch] |
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return list(zip(*result)) |
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@staticmethod |
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def cat_batch(batch1, batch2): |
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if batch1[0] is None: |
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return batch2 |
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result = [torch.cat((b1, b2)) if torch.is_tensor(b1) else b1 + b2 for b1, b2 in zip(batch1, batch2)] |
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return result |
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def rebatch(self, latents, batch_size): |
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batch_size = batch_size[0] |
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output_list = [] |
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current_batch = (None, None, None) |
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processed = 0 |
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for i in range(len(latents)): |
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next_batch = self.get_batch(latents, i, processed) |
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processed += len(next_batch[2]) |
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if current_batch[0] is None: |
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current_batch = next_batch |
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elif next_batch[0].shape[-1] != current_batch[0].shape[-1] or next_batch[0].shape[-2] != current_batch[0].shape[-2]: |
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sliced, _ = self.slice_batch(current_batch, 1, batch_size) |
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output_list.append({'samples': sliced[0][0], 'noise_mask': sliced[1][0], 'batch_index': sliced[2][0]}) |
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current_batch = next_batch |
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else: |
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current_batch = self.cat_batch(current_batch, next_batch) |
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if current_batch[0].shape[0] > batch_size: |
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num = current_batch[0].shape[0] // batch_size |
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sliced, remainder = self.slice_batch(current_batch, num, batch_size) |
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for i in range(num): |
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output_list.append({'samples': sliced[0][i], 'noise_mask': sliced[1][i], 'batch_index': sliced[2][i]}) |
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current_batch = remainder |
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if current_batch[0] is not None: |
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sliced, _ = self.slice_batch(current_batch, 1, batch_size) |
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output_list.append({'samples': sliced[0][0], 'noise_mask': sliced[1][0], 'batch_index': sliced[2][0]}) |
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for s in output_list: |
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if s['noise_mask'].mean() == 1.0: |
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del s['noise_mask'] |
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return (output_list,) |
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class ImageRebatch: |
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@classmethod |
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def INPUT_TYPES(s): |
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return {"required": { "images": ("IMAGE",), |
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"batch_size": ("INT", {"default": 1, "min": 1, "max": 4096}), |
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}} |
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RETURN_TYPES = ("IMAGE",) |
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INPUT_IS_LIST = True |
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OUTPUT_IS_LIST = (True, ) |
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FUNCTION = "rebatch" |
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CATEGORY = "image/batch" |
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def rebatch(self, images, batch_size): |
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batch_size = batch_size[0] |
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output_list = [] |
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all_images = [] |
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for img in images: |
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for i in range(img.shape[0]): |
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all_images.append(img[i:i+1]) |
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for i in range(0, len(all_images), batch_size): |
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output_list.append(torch.cat(all_images[i:i+batch_size], dim=0)) |
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return (output_list,) |
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NODE_CLASS_MAPPINGS = { |
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"RebatchLatents": LatentRebatch, |
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"RebatchImages": ImageRebatch, |
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} |
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NODE_DISPLAY_NAME_MAPPINGS = { |
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"RebatchLatents": "Rebatch Latents", |
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"RebatchImages": "Rebatch Images", |
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} |
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