diff --git a/comfy_extras/nodes_differential_diffusion.py b/comfy_extras/nodes_differential_diffusion.py index 255ac420d..6dfdf466c 100644 --- a/comfy_extras/nodes_differential_diffusion.py +++ b/comfy_extras/nodes_differential_diffusion.py @@ -1,34 +1,41 @@ # code adapted from https://github.com/exx8/differential-diffusion +from typing_extensions import override + import torch +from comfy_api.latest import ComfyExtension, io -class DifferentialDiffusion(): + +class DifferentialDiffusion(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return { - "required": { - "model": ("MODEL", ), - }, - "optional": { - "strength": ("FLOAT", { - "default": 1.0, - "min": 0.0, - "max": 1.0, - "step": 0.01, - }), - } - } - RETURN_TYPES = ("MODEL",) - FUNCTION = "apply" - CATEGORY = "_for_testing" - INIT = False + def define_schema(cls): + return io.Schema( + node_id="DifferentialDiffusion", + display_name="Differential Diffusion", + category="_for_testing", + inputs=[ + io.Model.Input("model"), + io.Float.Input( + "strength", + default=1.0, + min=0.0, + max=1.0, + step=0.01, + optional=True, + ), + ], + outputs=[io.Model.Output()], + is_experimental=True, + ) - def apply(self, model, strength=1.0): + @classmethod + def execute(cls, model, strength=1.0) -> io.NodeOutput: model = model.clone() - model.set_model_denoise_mask_function(lambda *args, **kwargs: self.forward(*args, **kwargs, strength=strength)) - return (model, ) + model.set_model_denoise_mask_function(lambda *args, **kwargs: cls.forward(*args, **kwargs, strength=strength)) + return io.NodeOutput(model) - def forward(self, sigma: torch.Tensor, denoise_mask: torch.Tensor, extra_options: dict, strength: float): + @classmethod + def forward(cls, sigma: torch.Tensor, denoise_mask: torch.Tensor, extra_options: dict, strength: float): model = extra_options["model"] step_sigmas = extra_options["sigmas"] sigma_to = model.inner_model.model_sampling.sigma_min @@ -53,9 +60,13 @@ class DifferentialDiffusion(): return binary_mask -NODE_CLASS_MAPPINGS = { - "DifferentialDiffusion": DifferentialDiffusion, -} -NODE_DISPLAY_NAME_MAPPINGS = { - "DifferentialDiffusion": "Differential Diffusion", -} +class DifferentialDiffusionExtension(ComfyExtension): + @override + async def get_node_list(self) -> list[type[io.ComfyNode]]: + return [ + DifferentialDiffusion, + ] + + +async def comfy_entrypoint() -> DifferentialDiffusionExtension: + return DifferentialDiffusionExtension() diff --git a/comfy_extras/nodes_gits.py b/comfy_extras/nodes_gits.py index 47b1dd049..25367560a 100644 --- a/comfy_extras/nodes_gits.py +++ b/comfy_extras/nodes_gits.py @@ -1,6 +1,8 @@ # from https://github.com/zju-pi/diff-sampler/tree/main/gits-main import numpy as np import torch +from typing_extensions import override +from comfy_api.latest import ComfyExtension, io def loglinear_interp(t_steps, num_steps): """ @@ -333,25 +335,28 @@ NOISE_LEVELS = { ], } -class GITSScheduler: +class GITSScheduler(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": - {"coeff": ("FLOAT", {"default": 1.20, "min": 0.80, "max": 1.50, "step": 0.05}), - "steps": ("INT", {"default": 10, "min": 2, "max": 1000}), - "denoise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 1.0, "step": 0.01}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" + def define_schema(cls): + return io.Schema( + node_id="GITSScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Float.Input("coeff", default=1.20, min=0.80, max=1.50, step=0.05), + io.Int.Input("steps", default=10, min=2, max=1000), + io.Float.Input("denoise", default=1.0, min=0.0, max=1.0, step=0.01), + ], + outputs=[ + io.Sigmas.Output(), + ], + ) - FUNCTION = "get_sigmas" - - def get_sigmas(self, coeff, steps, denoise): + @classmethod + def execute(cls, coeff, steps, denoise): total_steps = steps if denoise < 1.0: if denoise <= 0.0: - return (torch.FloatTensor([]),) + return io.NodeOutput(torch.FloatTensor([])) total_steps = round(steps * denoise) if steps <= 20: @@ -362,8 +367,16 @@ class GITSScheduler: sigmas = sigmas[-(total_steps + 1):] sigmas[-1] = 0 - return (torch.FloatTensor(sigmas), ) + return io.NodeOutput(torch.FloatTensor(sigmas)) -NODE_CLASS_MAPPINGS = { - "GITSScheduler": GITSScheduler, -} + +class GITSSchedulerExtension(ComfyExtension): + @override + async def get_node_list(self) -> list[type[io.ComfyNode]]: + return [ + GITSScheduler, + ] + + +async def comfy_entrypoint() -> GITSSchedulerExtension: + return GITSSchedulerExtension() diff --git a/comfy_extras/nodes_ip2p.py b/comfy_extras/nodes_ip2p.py index c2e70a84c..78f29915d 100644 --- a/comfy_extras/nodes_ip2p.py +++ b/comfy_extras/nodes_ip2p.py @@ -1,21 +1,30 @@ import torch -class InstructPixToPixConditioning: +from typing_extensions import override +from comfy_api.latest import ComfyExtension, io + + +class InstructPixToPixConditioning(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": {"positive": ("CONDITIONING", ), - "negative": ("CONDITIONING", ), - "vae": ("VAE", ), - "pixels": ("IMAGE", ), - }} + def define_schema(cls): + return io.Schema( + node_id="InstructPixToPixConditioning", + category="conditioning/instructpix2pix", + inputs=[ + io.Conditioning.Input("positive"), + io.Conditioning.Input("negative"), + io.Vae.Input("vae"), + io.Image.Input("pixels"), + ], + outputs=[ + io.Conditioning.Output(display_name="positive"), + io.Conditioning.Output(display_name="negative"), + io.Latent.Output(display_name="latent"), + ], + ) - RETURN_TYPES = ("CONDITIONING","CONDITIONING","LATENT") - RETURN_NAMES = ("positive", "negative", "latent") - FUNCTION = "encode" - - CATEGORY = "conditioning/instructpix2pix" - - def encode(self, positive, negative, pixels, vae): + @classmethod + def execute(cls, positive, negative, pixels, vae) -> io.NodeOutput: x = (pixels.shape[1] // 8) * 8 y = (pixels.shape[2] // 8) * 8 @@ -38,8 +47,17 @@ class InstructPixToPixConditioning: n = [t[0], d] c.append(n) out.append(c) - return (out[0], out[1], out_latent) + return io.NodeOutput(out[0], out[1], out_latent) + + +class InstructPix2PixExtension(ComfyExtension): + @override + async def get_node_list(self) -> list[type[io.ComfyNode]]: + return [ + InstructPixToPixConditioning, + ] + + +async def comfy_entrypoint() -> InstructPix2PixExtension: + return InstructPix2PixExtension() -NODE_CLASS_MAPPINGS = { - "InstructPixToPixConditioning": InstructPixToPixConditioning, -} diff --git a/comfy_extras/nodes_lt.py b/comfy_extras/nodes_lt.py index f82337a67..b51d15804 100644 --- a/comfy_extras/nodes_lt.py +++ b/comfy_extras/nodes_lt.py @@ -1,4 +1,3 @@ -import io import nodes import node_helpers import torch @@ -8,46 +7,60 @@ import comfy.utils import math import numpy as np import av +from io import BytesIO +from typing_extensions import override from comfy.ldm.lightricks.symmetric_patchifier import SymmetricPatchifier, latent_to_pixel_coords +from comfy_api.latest import ComfyExtension, io -class EmptyLTXVLatentVideo: +class EmptyLTXVLatentVideo(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": { "width": ("INT", {"default": 768, "min": 64, "max": nodes.MAX_RESOLUTION, "step": 32}), - "height": ("INT", {"default": 512, "min": 64, "max": nodes.MAX_RESOLUTION, "step": 32}), - "length": ("INT", {"default": 97, "min": 1, "max": nodes.MAX_RESOLUTION, "step": 8}), - "batch_size": ("INT", {"default": 1, "min": 1, "max": 4096})}} - RETURN_TYPES = ("LATENT",) - FUNCTION = "generate" + def define_schema(cls): + return io.Schema( + node_id="EmptyLTXVLatentVideo", + category="latent/video/ltxv", + inputs=[ + io.Int.Input("width", default=768, min=64, max=nodes.MAX_RESOLUTION, step=32), + io.Int.Input("height", default=512, min=64, max=nodes.MAX_RESOLUTION, step=32), + io.Int.Input("length", default=97, min=1, max=nodes.MAX_RESOLUTION, step=8), + io.Int.Input("batch_size", default=1, min=1, max=4096), + ], + outputs=[ + io.Latent.Output(), + ], + ) - CATEGORY = "latent/video/ltxv" - - def generate(self, width, height, length, batch_size=1): + @classmethod + def execute(cls, width, height, length, batch_size=1) -> io.NodeOutput: latent = torch.zeros([batch_size, 128, ((length - 1) // 8) + 1, height // 32, width // 32], device=comfy.model_management.intermediate_device()) - return ({"samples": latent}, ) + return io.NodeOutput({"samples": latent}) -class LTXVImgToVideo: +class LTXVImgToVideo(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": {"positive": ("CONDITIONING", ), - "negative": ("CONDITIONING", ), - "vae": ("VAE",), - "image": ("IMAGE",), - "width": ("INT", {"default": 768, "min": 64, "max": nodes.MAX_RESOLUTION, "step": 32}), - "height": ("INT", {"default": 512, "min": 64, "max": nodes.MAX_RESOLUTION, "step": 32}), - "length": ("INT", {"default": 97, "min": 9, "max": nodes.MAX_RESOLUTION, "step": 8}), - "batch_size": ("INT", {"default": 1, "min": 1, "max": 4096}), - "strength": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 1.0}), - }} + def define_schema(cls): + return io.Schema( + node_id="LTXVImgToVideo", + category="conditioning/video_models", + inputs=[ + io.Conditioning.Input("positive"), + io.Conditioning.Input("negative"), + io.Vae.Input("vae"), + io.Image.Input("image"), + io.Int.Input("width", default=768, min=64, max=nodes.MAX_RESOLUTION, step=32), + io.Int.Input("height", default=512, min=64, max=nodes.MAX_RESOLUTION, step=32), + io.Int.Input("length", default=97, min=9, max=nodes.MAX_RESOLUTION, step=8), + io.Int.Input("batch_size", default=1, min=1, max=4096), + io.Float.Input("strength", default=1.0, min=0.0, max=1.0), + ], + outputs=[ + io.Conditioning.Output(display_name="positive"), + io.Conditioning.Output(display_name="negative"), + io.Latent.Output(display_name="latent"), + ], + ) - RETURN_TYPES = ("CONDITIONING", "CONDITIONING", "LATENT") - RETURN_NAMES = ("positive", "negative", "latent") - - CATEGORY = "conditioning/video_models" - FUNCTION = "generate" - - def generate(self, positive, negative, image, vae, width, height, length, batch_size, strength): + @classmethod + def execute(cls, positive, negative, image, vae, width, height, length, batch_size, strength) -> io.NodeOutput: pixels = comfy.utils.common_upscale(image.movedim(-1, 1), width, height, "bilinear", "center").movedim(1, -1) encode_pixels = pixels[:, :, :, :3] t = vae.encode(encode_pixels) @@ -62,7 +75,7 @@ class LTXVImgToVideo: ) conditioning_latent_frames_mask[:, :, :t.shape[2]] = 1.0 - strength - return (positive, negative, {"samples": latent, "noise_mask": conditioning_latent_frames_mask}, ) + return io.NodeOutput(positive, negative, {"samples": latent, "noise_mask": conditioning_latent_frames_mask}) def conditioning_get_any_value(conditioning, key, default=None): @@ -93,35 +106,46 @@ def get_keyframe_idxs(cond): num_keyframes = torch.unique(keyframe_idxs[:, 0]).shape[0] return keyframe_idxs, num_keyframes -class LTXVAddGuide: +class LTXVAddGuide(io.ComfyNode): + NUM_PREFIX_FRAMES = 2 + PATCHIFIER = SymmetricPatchifier(1) + @classmethod - def INPUT_TYPES(s): - return {"required": {"positive": ("CONDITIONING", ), - "negative": ("CONDITIONING", ), - "vae": ("VAE",), - "latent": ("LATENT",), - "image": ("IMAGE", {"tooltip": "Image or video to condition the latent video on. Must be 8*n + 1 frames." - "If the video is not 8*n + 1 frames, it will be cropped to the nearest 8*n + 1 frames."}), - "frame_idx": ("INT", {"default": 0, "min": -9999, "max": 9999, - "tooltip": "Frame index to start the conditioning at. For single-frame images or " - "videos with 1-8 frames, any frame_idx value is acceptable. For videos with 9+ " - "frames, frame_idx must be divisible by 8, otherwise it will be rounded down to " - "the nearest multiple of 8. Negative values are counted from the end of the video."}), - "strength": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 1.0, "step": 0.01}), - } - } + def define_schema(cls): + return io.Schema( + node_id="LTXVAddGuide", + category="conditioning/video_models", + inputs=[ + io.Conditioning.Input("positive"), + io.Conditioning.Input("negative"), + io.Vae.Input("vae"), + io.Latent.Input("latent"), + io.Image.Input( + "image", + tooltip="Image or video to condition the latent video on. Must be 8*n + 1 frames. " + "If the video is not 8*n + 1 frames, it will be cropped to the nearest 8*n + 1 frames.", + ), + io.Int.Input( + "frame_idx", + default=0, + min=-9999, + max=9999, + tooltip="Frame index to start the conditioning at. " + "For single-frame images or videos with 1-8 frames, any frame_idx value is acceptable. " + "For videos with 9+ frames, frame_idx must be divisible by 8, otherwise it will be rounded " + "down to the nearest multiple of 8. Negative values are counted from the end of the video.", + ), + io.Float.Input("strength", default=1.0, min=0.0, max=1.0, step=0.01), + ], + outputs=[ + io.Conditioning.Output(display_name="positive"), + io.Conditioning.Output(display_name="negative"), + io.Latent.Output(display_name="latent"), + ], + ) - RETURN_TYPES = ("CONDITIONING", "CONDITIONING", "LATENT") - RETURN_NAMES = ("positive", "negative", "latent") - - CATEGORY = "conditioning/video_models" - FUNCTION = "generate" - - def __init__(self): - self._num_prefix_frames = 2 - self._patchifier = SymmetricPatchifier(1) - - def encode(self, vae, latent_width, latent_height, images, scale_factors): + @classmethod + def encode(cls, vae, latent_width, latent_height, images, scale_factors): time_scale_factor, width_scale_factor, height_scale_factor = scale_factors images = images[:(images.shape[0] - 1) // time_scale_factor * time_scale_factor + 1] pixels = comfy.utils.common_upscale(images.movedim(-1, 1), latent_width * width_scale_factor, latent_height * height_scale_factor, "bilinear", crop="disabled").movedim(1, -1) @@ -129,7 +153,8 @@ class LTXVAddGuide: t = vae.encode(encode_pixels) return encode_pixels, t - def get_latent_index(self, cond, latent_length, guide_length, frame_idx, scale_factors): + @classmethod + def get_latent_index(cls, cond, latent_length, guide_length, frame_idx, scale_factors): time_scale_factor, _, _ = scale_factors _, num_keyframes = get_keyframe_idxs(cond) latent_count = latent_length - num_keyframes @@ -141,9 +166,10 @@ class LTXVAddGuide: return frame_idx, latent_idx - def add_keyframe_index(self, cond, frame_idx, guiding_latent, scale_factors): + @classmethod + def add_keyframe_index(cls, cond, frame_idx, guiding_latent, scale_factors): keyframe_idxs, _ = get_keyframe_idxs(cond) - _, latent_coords = self._patchifier.patchify(guiding_latent) + _, latent_coords = cls.PATCHIFIER.patchify(guiding_latent) pixel_coords = latent_to_pixel_coords(latent_coords, scale_factors, causal_fix=frame_idx == 0) # we need the causal fix only if we're placing the new latents at index 0 pixel_coords[:, 0] += frame_idx if keyframe_idxs is None: @@ -152,8 +178,9 @@ class LTXVAddGuide: keyframe_idxs = torch.cat([keyframe_idxs, pixel_coords], dim=2) return node_helpers.conditioning_set_values(cond, {"keyframe_idxs": keyframe_idxs}) - def append_keyframe(self, positive, negative, frame_idx, latent_image, noise_mask, guiding_latent, strength, scale_factors): - _, latent_idx = self.get_latent_index( + @classmethod + def append_keyframe(cls, positive, negative, frame_idx, latent_image, noise_mask, guiding_latent, strength, scale_factors): + _, latent_idx = cls.get_latent_index( cond=positive, latent_length=latent_image.shape[2], guide_length=guiding_latent.shape[2], @@ -162,8 +189,8 @@ class LTXVAddGuide: ) noise_mask[:, :, latent_idx:latent_idx + guiding_latent.shape[2]] = 1.0 - positive = self.add_keyframe_index(positive, frame_idx, guiding_latent, scale_factors) - negative = self.add_keyframe_index(negative, frame_idx, guiding_latent, scale_factors) + positive = cls.add_keyframe_index(positive, frame_idx, guiding_latent, scale_factors) + negative = cls.add_keyframe_index(negative, frame_idx, guiding_latent, scale_factors) mask = torch.full( (noise_mask.shape[0], 1, guiding_latent.shape[2], noise_mask.shape[3], noise_mask.shape[4]), @@ -176,7 +203,8 @@ class LTXVAddGuide: noise_mask = torch.cat([noise_mask, mask], dim=2) return positive, negative, latent_image, noise_mask - def replace_latent_frames(self, latent_image, noise_mask, guiding_latent, latent_idx, strength): + @classmethod + def replace_latent_frames(cls, latent_image, noise_mask, guiding_latent, latent_idx, strength): cond_length = guiding_latent.shape[2] assert latent_image.shape[2] >= latent_idx + cond_length, "Conditioning frames exceed the length of the latent sequence." @@ -195,20 +223,21 @@ class LTXVAddGuide: return latent_image, noise_mask - def generate(self, positive, negative, vae, latent, image, frame_idx, strength): + @classmethod + def execute(cls, positive, negative, vae, latent, image, frame_idx, strength) -> io.NodeOutput: scale_factors = vae.downscale_index_formula latent_image = latent["samples"] noise_mask = get_noise_mask(latent) _, _, latent_length, latent_height, latent_width = latent_image.shape - image, t = self.encode(vae, latent_width, latent_height, image, scale_factors) + image, t = cls.encode(vae, latent_width, latent_height, image, scale_factors) - frame_idx, latent_idx = self.get_latent_index(positive, latent_length, len(image), frame_idx, scale_factors) + frame_idx, latent_idx = cls.get_latent_index(positive, latent_length, len(image), frame_idx, scale_factors) assert latent_idx + t.shape[2] <= latent_length, "Conditioning frames exceed the length of the latent sequence." - num_prefix_frames = min(self._num_prefix_frames, t.shape[2]) + num_prefix_frames = min(cls.NUM_PREFIX_FRAMES, t.shape[2]) - positive, negative, latent_image, noise_mask = self.append_keyframe( + positive, negative, latent_image, noise_mask = cls.append_keyframe( positive, negative, frame_idx, @@ -223,9 +252,9 @@ class LTXVAddGuide: t = t[:, :, num_prefix_frames:] if t.shape[2] == 0: - return (positive, negative, {"samples": latent_image, "noise_mask": noise_mask},) + return io.NodeOutput(positive, negative, {"samples": latent_image, "noise_mask": noise_mask}) - latent_image, noise_mask = self.replace_latent_frames( + latent_image, noise_mask = cls.replace_latent_frames( latent_image, noise_mask, t, @@ -233,34 +262,35 @@ class LTXVAddGuide: strength, ) - return (positive, negative, {"samples": latent_image, "noise_mask": noise_mask},) + return io.NodeOutput(positive, negative, {"samples": latent_image, "noise_mask": noise_mask}) -class LTXVCropGuides: +class LTXVCropGuides(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": {"positive": ("CONDITIONING", ), - "negative": ("CONDITIONING", ), - "latent": ("LATENT",), - } - } + def define_schema(cls): + return io.Schema( + node_id="LTXVCropGuides", + category="conditioning/video_models", + inputs=[ + io.Conditioning.Input("positive"), + io.Conditioning.Input("negative"), + io.Latent.Input("latent"), + ], + outputs=[ + io.Conditioning.Output(display_name="positive"), + io.Conditioning.Output(display_name="negative"), + io.Latent.Output(display_name="latent"), + ], + ) - RETURN_TYPES = ("CONDITIONING", "CONDITIONING", "LATENT") - RETURN_NAMES = ("positive", "negative", "latent") - - CATEGORY = "conditioning/video_models" - FUNCTION = "crop" - - def __init__(self): - self._patchifier = SymmetricPatchifier(1) - - def crop(self, positive, negative, latent): + @classmethod + def execute(cls, positive, negative, latent) -> io.NodeOutput: latent_image = latent["samples"].clone() noise_mask = get_noise_mask(latent) _, num_keyframes = get_keyframe_idxs(positive) if num_keyframes == 0: - return (positive, negative, {"samples": latent_image, "noise_mask": noise_mask},) + return io.NodeOutput(positive, negative, {"samples": latent_image, "noise_mask": noise_mask},) latent_image = latent_image[:, :, :-num_keyframes] noise_mask = noise_mask[:, :, :-num_keyframes] @@ -268,44 +298,52 @@ class LTXVCropGuides: positive = node_helpers.conditioning_set_values(positive, {"keyframe_idxs": None}) negative = node_helpers.conditioning_set_values(negative, {"keyframe_idxs": None}) - return (positive, negative, {"samples": latent_image, "noise_mask": noise_mask},) + return io.NodeOutput(positive, negative, {"samples": latent_image, "noise_mask": noise_mask}) -class LTXVConditioning: +class LTXVConditioning(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": {"positive": ("CONDITIONING", ), - "negative": ("CONDITIONING", ), - "frame_rate": ("FLOAT", {"default": 25.0, "min": 0.0, "max": 1000.0, "step": 0.01}), - }} - RETURN_TYPES = ("CONDITIONING", "CONDITIONING") - RETURN_NAMES = ("positive", "negative") - FUNCTION = "append" + def define_schema(cls): + return io.Schema( + node_id="LTXVConditioning", + category="conditioning/video_models", + inputs=[ + io.Conditioning.Input("positive"), + io.Conditioning.Input("negative"), + io.Float.Input("frame_rate", default=25.0, min=0.0, max=1000.0, step=0.01), + ], + outputs=[ + io.Conditioning.Output(display_name="positive"), + io.Conditioning.Output(display_name="negative"), + ], + ) - CATEGORY = "conditioning/video_models" - - def append(self, positive, negative, frame_rate): + @classmethod + def execute(cls, positive, negative, frame_rate) -> io.NodeOutput: positive = node_helpers.conditioning_set_values(positive, {"frame_rate": frame_rate}) negative = node_helpers.conditioning_set_values(negative, {"frame_rate": frame_rate}) - return (positive, negative) + return io.NodeOutput(positive, negative) -class ModelSamplingLTXV: +class ModelSamplingLTXV(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": { "model": ("MODEL",), - "max_shift": ("FLOAT", {"default": 2.05, "min": 0.0, "max": 100.0, "step":0.01}), - "base_shift": ("FLOAT", {"default": 0.95, "min": 0.0, "max": 100.0, "step":0.01}), - }, - "optional": {"latent": ("LATENT",), } - } + def define_schema(cls): + return io.Schema( + node_id="ModelSamplingLTXV", + category="advanced/model", + inputs=[ + io.Model.Input("model"), + io.Float.Input("max_shift", default=2.05, min=0.0, max=100.0, step=0.01), + io.Float.Input("base_shift", default=0.95, min=0.0, max=100.0, step=0.01), + io.Latent.Input("latent", optional=True), + ], + outputs=[ + io.Model.Output(), + ], + ) - RETURN_TYPES = ("MODEL",) - FUNCTION = "patch" - - CATEGORY = "advanced/model" - - def patch(self, model, max_shift, base_shift, latent=None): + @classmethod + def execute(cls, model, max_shift, base_shift, latent=None) -> io.NodeOutput: m = model.clone() if latent is None: @@ -329,37 +367,41 @@ class ModelSamplingLTXV: model_sampling.set_parameters(shift=shift) m.add_object_patch("model_sampling", model_sampling) - return (m, ) + return io.NodeOutput(m) -class LTXVScheduler: +class LTXVScheduler(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": - {"steps": ("INT", {"default": 20, "min": 1, "max": 10000}), - "max_shift": ("FLOAT", {"default": 2.05, "min": 0.0, "max": 100.0, "step":0.01}), - "base_shift": ("FLOAT", {"default": 0.95, "min": 0.0, "max": 100.0, "step":0.01}), - "stretch": ("BOOLEAN", { - "default": True, - "tooltip": "Stretch the sigmas to be in the range [terminal, 1]." - }), - "terminal": ( - "FLOAT", - { - "default": 0.1, "min": 0.0, "max": 0.99, "step": 0.01, - "tooltip": "The terminal value of the sigmas after stretching." - }, - ), - }, - "optional": {"latent": ("LATENT",), } - } + def define_schema(cls): + return io.Schema( + node_id="LTXVScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Int.Input("steps", default=20, min=1, max=10000), + io.Float.Input("max_shift", default=2.05, min=0.0, max=100.0, step=0.01), + io.Float.Input("base_shift", default=0.95, min=0.0, max=100.0, step=0.01), + io.Boolean.Input( + id="stretch", + default=True, + tooltip="Stretch the sigmas to be in the range [terminal, 1].", + ), + io.Float.Input( + id="terminal", + default=0.1, + min=0.0, + max=0.99, + step=0.01, + tooltip="The terminal value of the sigmas after stretching.", + ), + io.Latent.Input("latent", optional=True), + ], + outputs=[ + io.Sigmas.Output(), + ], + ) - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, steps, max_shift, base_shift, stretch, terminal, latent=None): + @classmethod + def execute(cls, steps, max_shift, base_shift, stretch, terminal, latent=None) -> io.NodeOutput: if latent is None: tokens = 4096 else: @@ -389,7 +431,7 @@ class LTXVScheduler: stretched = 1.0 - (one_minus_z / scale_factor) sigmas[non_zero_mask] = stretched - return (sigmas,) + return io.NodeOutput(sigmas) def encode_single_frame(output_file, image_array: np.ndarray, crf): container = av.open(output_file, "w", format="mp4") @@ -423,52 +465,54 @@ def preprocess(image: torch.Tensor, crf=29): return image image_array = (image[:(image.shape[0] // 2) * 2, :(image.shape[1] // 2) * 2] * 255.0).byte().cpu().numpy() - with io.BytesIO() as output_file: + with BytesIO() as output_file: encode_single_frame(output_file, image_array, crf) video_bytes = output_file.getvalue() - with io.BytesIO(video_bytes) as video_file: + with BytesIO(video_bytes) as video_file: image_array = decode_single_frame(video_file) tensor = torch.tensor(image_array, dtype=image.dtype, device=image.device) / 255.0 return tensor -class LTXVPreprocess: +class LTXVPreprocess(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return { - "required": { - "image": ("IMAGE",), - "img_compression": ( - "INT", - { - "default": 35, - "min": 0, - "max": 100, - "tooltip": "Amount of compression to apply on image.", - }, + def define_schema(cls): + return io.Schema( + node_id="LTXVPreprocess", + category="image", + inputs=[ + io.Image.Input("image"), + io.Int.Input( + id="img_compression", default=35, min=0, max=100, tooltip="Amount of compression to apply on image." ), - } - } + ], + outputs=[ + io.Image.Output(display_name="output_image"), + ], + ) - FUNCTION = "preprocess" - RETURN_TYPES = ("IMAGE",) - RETURN_NAMES = ("output_image",) - CATEGORY = "image" - - def preprocess(self, image, img_compression): + @classmethod + def execute(cls, image, img_compression) -> io.NodeOutput: output_images = [] for i in range(image.shape[0]): output_images.append(preprocess(image[i], img_compression)) - return (torch.stack(output_images),) + return io.NodeOutput(torch.stack(output_images)) -NODE_CLASS_MAPPINGS = { - "EmptyLTXVLatentVideo": EmptyLTXVLatentVideo, - "LTXVImgToVideo": LTXVImgToVideo, - "ModelSamplingLTXV": ModelSamplingLTXV, - "LTXVConditioning": LTXVConditioning, - "LTXVScheduler": LTXVScheduler, - "LTXVAddGuide": LTXVAddGuide, - "LTXVPreprocess": LTXVPreprocess, - "LTXVCropGuides": LTXVCropGuides, -} +class LtxvExtension(ComfyExtension): + @override + async def get_node_list(self) -> list[type[io.ComfyNode]]: + return [ + EmptyLTXVLatentVideo, + LTXVImgToVideo, + ModelSamplingLTXV, + LTXVConditioning, + LTXVScheduler, + LTXVAddGuide, + LTXVPreprocess, + LTXVCropGuides, + ] + + +async def comfy_entrypoint() -> LtxvExtension: + return LtxvExtension() diff --git a/comfy_extras/nodes_optimalsteps.py b/comfy_extras/nodes_optimalsteps.py index e7c851ca2..73f0104d8 100644 --- a/comfy_extras/nodes_optimalsteps.py +++ b/comfy_extras/nodes_optimalsteps.py @@ -1,9 +1,12 @@ # from https://github.com/bebebe666/OptimalSteps - import numpy as np import torch +from typing_extensions import override +from comfy_api.latest import ComfyExtension, io + + def loglinear_interp(t_steps, num_steps): """ Performs log-linear interpolation of a given array of decreasing numbers. @@ -23,25 +26,28 @@ NOISE_LEVELS = {"FLUX": [0.9968, 0.9886, 0.9819, 0.975, 0.966, 0.9471, 0.9158, 0 "Chroma": [0.992, 0.99, 0.988, 0.985, 0.982, 0.978, 0.973, 0.968, 0.961, 0.953, 0.943, 0.931, 0.917, 0.9, 0.881, 0.858, 0.832, 0.802, 0.769, 0.731, 0.69, 0.646, 0.599, 0.55, 0.501, 0.451, 0.402, 0.355, 0.311, 0.27, 0.232, 0.199, 0.169, 0.143, 0.12, 0.101, 0.084, 0.07, 0.058, 0.048, 0.001], } -class OptimalStepsScheduler: +class OptimalStepsScheduler(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": - {"model_type": (["FLUX", "Wan", "Chroma"], ), - "steps": ("INT", {"default": 20, "min": 3, "max": 1000}), - "denoise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 1.0, "step": 0.01}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" + def define_schema(cls): + return io.Schema( + node_id="OptimalStepsScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Combo.Input("model_type", options=["FLUX", "Wan", "Chroma"]), + io.Int.Input("steps", default=20, min=3, max=1000), + io.Float.Input("denoise", default=1.0, min=0.0, max=1.0, step=0.01), + ], + outputs=[ + io.Sigmas.Output(), + ], + ) - FUNCTION = "get_sigmas" - - def get_sigmas(self, model_type, steps, denoise): + @classmethod + def execute(cls, model_type, steps, denoise) ->io.NodeOutput: total_steps = steps if denoise < 1.0: if denoise <= 0.0: - return (torch.FloatTensor([]),) + return io.NodeOutput(torch.FloatTensor([])) total_steps = round(steps * denoise) sigmas = NOISE_LEVELS[model_type][:] @@ -50,8 +56,16 @@ class OptimalStepsScheduler: sigmas = sigmas[-(total_steps + 1):] sigmas[-1] = 0 - return (torch.FloatTensor(sigmas), ) + return io.NodeOutput(torch.FloatTensor(sigmas)) -NODE_CLASS_MAPPINGS = { - "OptimalStepsScheduler": OptimalStepsScheduler, -} + +class OptimalStepsExtension(ComfyExtension): + @override + async def get_node_list(self) -> list[type[io.ComfyNode]]: + return [ + OptimalStepsScheduler, + ] + + +async def comfy_entrypoint() -> OptimalStepsExtension: + return OptimalStepsExtension() diff --git a/comfy_extras/nodes_pag.py b/comfy_extras/nodes_pag.py index eb28196f4..79fea5f0c 100644 --- a/comfy_extras/nodes_pag.py +++ b/comfy_extras/nodes_pag.py @@ -3,25 +3,30 @@ #My modified one here is more basic but has less chances of breaking with ComfyUI updates. +from typing_extensions import override + import comfy.model_patcher import comfy.samplers +from comfy_api.latest import ComfyExtension, io -class PerturbedAttentionGuidance: + +class PerturbedAttentionGuidance(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return { - "required": { - "model": ("MODEL",), - "scale": ("FLOAT", {"default": 3.0, "min": 0.0, "max": 100.0, "step": 0.01, "round": 0.01}), - } - } + def define_schema(cls): + return io.Schema( + node_id="PerturbedAttentionGuidance", + category="model_patches/unet", + inputs=[ + io.Model.Input("model"), + io.Float.Input("scale", default=3.0, min=0.0, max=100.0, step=0.01, round=0.01), + ], + outputs=[ + io.Model.Output(), + ], + ) - RETURN_TYPES = ("MODEL",) - FUNCTION = "patch" - - CATEGORY = "model_patches/unet" - - def patch(self, model, scale): + @classmethod + def execute(cls, model, scale) -> io.NodeOutput: unet_block = "middle" unet_block_id = 0 m = model.clone() @@ -49,8 +54,16 @@ class PerturbedAttentionGuidance: m.set_model_sampler_post_cfg_function(post_cfg_function) - return (m,) + return io.NodeOutput(m) -NODE_CLASS_MAPPINGS = { - "PerturbedAttentionGuidance": PerturbedAttentionGuidance, -} + +class PAGExtension(ComfyExtension): + @override + async def get_node_list(self) -> list[type[io.ComfyNode]]: + return [ + PerturbedAttentionGuidance, + ] + + +async def comfy_entrypoint() -> PAGExtension: + return PAGExtension()