mirror of
https://github.com/comfyanonymous/ComfyUI.git
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147 lines
6.3 KiB
Python
147 lines
6.3 KiB
Python
from __future__ import annotations
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import torch
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import comfy.latent_formats
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import comfy.model_management
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import comfy.utils
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import nodes
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from comfy_api.latest import io
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class EmptyCosmosLatentVideo(io.ComfyNode):
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@classmethod
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def define_schema(cls) -> io.Schema:
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return io.Schema(
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node_id="EmptyCosmosLatentVideo_V3",
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category="latent/video",
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inputs=[
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io.Int.Input("width", default=1280, min=16, max=nodes.MAX_RESOLUTION, step=16),
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io.Int.Input("height", default=704, min=16, max=nodes.MAX_RESOLUTION, step=16),
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io.Int.Input("length", default=121, min=1, max=nodes.MAX_RESOLUTION, step=8),
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io.Int.Input("batch_size", default=1, min=1, max=4096),
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],
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outputs=[io.Latent.Output()],
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)
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@classmethod
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def execute(cls, width, height, length, batch_size) -> io.NodeOutput:
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latent = torch.zeros(
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[batch_size, 16, ((length - 1) // 8) + 1, height // 8, width // 8], device=comfy.model_management.intermediate_device()
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)
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return io.NodeOutput({"samples": latent})
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def vae_encode_with_padding(vae, image, width, height, length, padding=0):
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pixels = comfy.utils.common_upscale(image[..., :3].movedim(-1, 1), width, height, "bilinear", "center").movedim(1, -1)
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pixel_len = min(pixels.shape[0], length)
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padded_length = min(length, (((pixel_len - 1) // 8) + 1 + padding) * 8 - 7)
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padded_pixels = torch.ones((padded_length, height, width, 3)) * 0.5
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padded_pixels[:pixel_len] = pixels[:pixel_len]
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latent_len = ((pixel_len - 1) // 8) + 1
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latent_temp = vae.encode(padded_pixels)
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return latent_temp[:, :, :latent_len]
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class CosmosImageToVideoLatent(io.ComfyNode):
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@classmethod
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def define_schema(cls) -> io.Schema:
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return io.Schema(
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node_id="CosmosImageToVideoLatent_V3",
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category="conditioning/inpaint",
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inputs=[
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io.Vae.Input("vae"),
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io.Int.Input("width", default=1280, min=16, max=nodes.MAX_RESOLUTION, step=16),
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io.Int.Input("height", default=704, min=16, max=nodes.MAX_RESOLUTION, step=16),
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io.Int.Input("length", default=121, min=1, max=nodes.MAX_RESOLUTION, step=8),
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io.Int.Input("batch_size", default=1, min=1, max=4096),
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io.Image.Input("start_image", optional=True),
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io.Image.Input("end_image", optional=True),
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],
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outputs=[io.Latent.Output()],
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)
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@classmethod
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def execute(cls, vae, width, height, length, batch_size, start_image=None, end_image=None) -> io.NodeOutput:
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latent = torch.zeros([1, 16, ((length - 1) // 8) + 1, height // 8, width // 8], device=comfy.model_management.intermediate_device())
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if start_image is None and end_image is None:
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out_latent = {}
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out_latent["samples"] = latent
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return io.NodeOutput(out_latent)
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mask = torch.ones(
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[latent.shape[0], 1, ((length - 1) // 8) + 1, latent.shape[-2], latent.shape[-1]],
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device=comfy.model_management.intermediate_device(),
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)
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if start_image is not None:
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latent_temp = vae_encode_with_padding(vae, start_image, width, height, length, padding=1)
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latent[:, :, :latent_temp.shape[-3]] = latent_temp
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mask[:, :, :latent_temp.shape[-3]] *= 0.0
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if end_image is not None:
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latent_temp = vae_encode_with_padding(vae, end_image, width, height, length, padding=0)
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latent[:, :, -latent_temp.shape[-3]:] = latent_temp
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mask[:, :, -latent_temp.shape[-3]:] *= 0.0
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out_latent = {}
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out_latent["samples"] = latent.repeat((batch_size, ) + (1,) * (latent.ndim - 1))
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out_latent["noise_mask"] = mask.repeat((batch_size, ) + (1,) * (mask.ndim - 1))
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return io.NodeOutput(out_latent)
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class CosmosPredict2ImageToVideoLatent(io.ComfyNode):
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@classmethod
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def define_schema(cls) -> io.Schema:
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return io.Schema(
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node_id="CosmosPredict2ImageToVideoLatent_V3",
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category="conditioning/inpaint",
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inputs=[
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io.Vae.Input("vae"),
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io.Int.Input("width", default=848, min=16, max=nodes.MAX_RESOLUTION, step=16),
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io.Int.Input("height", default=480, min=16, max=nodes.MAX_RESOLUTION, step=16),
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io.Int.Input("length", default=93, min=1, max=nodes.MAX_RESOLUTION, step=4),
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io.Int.Input("batch_size", default=1, min=1, max=4096),
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io.Image.Input("start_image", optional=True),
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io.Image.Input("end_image", optional=True),
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],
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outputs=[io.Latent.Output()],
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)
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@classmethod
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def execute(cls, vae, width, height, length, batch_size, start_image=None, end_image=None) -> io.NodeOutput:
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latent = torch.zeros([1, 16, ((length - 1) // 4) + 1, height // 8, width // 8], device=comfy.model_management.intermediate_device())
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if start_image is None and end_image is None:
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out_latent = {}
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out_latent["samples"] = latent
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return io.NodeOutput(out_latent)
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mask = torch.ones(
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[latent.shape[0], 1, ((length - 1) // 4) + 1, latent.shape[-2], latent.shape[-1]],
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device=comfy.model_management.intermediate_device(),
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)
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if start_image is not None:
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latent_temp = vae_encode_with_padding(vae, start_image, width, height, length, padding=1)
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latent[:, :, :latent_temp.shape[-3]] = latent_temp
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mask[:, :, :latent_temp.shape[-3]] *= 0.0
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if end_image is not None:
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latent_temp = vae_encode_with_padding(vae, end_image, width, height, length, padding=0)
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latent[:, :, -latent_temp.shape[-3]:] = latent_temp
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mask[:, :, -latent_temp.shape[-3]:] *= 0.0
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out_latent = {}
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latent_format = comfy.latent_formats.Wan21()
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latent = latent_format.process_out(latent) * mask + latent * (1.0 - mask)
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out_latent["samples"] = latent.repeat((batch_size, ) + (1,) * (latent.ndim - 1))
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out_latent["noise_mask"] = mask.repeat((batch_size, ) + (1,) * (mask.ndim - 1))
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return io.NodeOutput(out_latent)
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NODES_LIST: list[type[io.ComfyNode]] = [
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CosmosImageToVideoLatent,
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CosmosPredict2ImageToVideoLatent,
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EmptyCosmosLatentVideo,
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]
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