diff --git a/comfy_extras/nodes_custom_sampler.py b/comfy_extras/nodes_custom_sampler.py index d011f433b5db..6746b637b2e3 100644 --- a/comfy_extras/nodes_custom_sampler.py +++ b/comfy_extras/nodes_custom_sampler.py @@ -3,272 +3,288 @@ import comfy.sample from comfy.k_diffusion import sampling as k_diffusion_sampling from comfy.k_diffusion import sa_solver -from comfy.comfy_types import IO, ComfyNodeABC, InputTypeDict import latent_preview import torch import comfy.utils import node_helpers +from typing_extensions import override +from comfy_api.latest import ComfyExtension, io + + +class BasicScheduler(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="BasicScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Model.Input("model"), + io.Combo.Input("scheduler", options=comfy.samplers.SCHEDULER_NAMES), + io.Int.Input("steps", default=20, min=1, max=10000), + io.Float.Input("denoise", default=1.0, min=0.0, max=1.0, step=0.01), + ], + outputs=[io.Sigmas.Output()] + ) - -class BasicScheduler: @classmethod - def INPUT_TYPES(s): - return {"required": - {"model": ("MODEL",), - "scheduler": (comfy.samplers.SCHEDULER_NAMES, ), - "steps": ("INT", {"default": 20, "min": 1, "max": 10000}), - "denoise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 1.0, "step": 0.01}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, model, scheduler, steps, denoise): + def execute(cls, model, scheduler, 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 = int(steps/denoise) sigmas = comfy.samplers.calculate_sigmas(model.get_model_object("model_sampling"), scheduler, total_steps).cpu() sigmas = sigmas[-(steps + 1):] - return (sigmas, ) - + return io.NodeOutput(sigmas) + + +class KarrasScheduler(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="KarrasScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Int.Input("steps", default=20, min=1, max=10000), + io.Float.Input("sigma_max", default=14.614642, min=0.0, max=5000.0, step=0.01, round=False), + io.Float.Input("sigma_min", default=0.0291675, min=0.0, max=5000.0, step=0.01, round=False), + io.Float.Input("rho", default=7.0, min=0.0, max=100.0, step=0.01, round=False), + ], + outputs=[io.Sigmas.Output()] + ) -class KarrasScheduler: @classmethod - def INPUT_TYPES(s): - return {"required": - {"steps": ("INT", {"default": 20, "min": 1, "max": 10000}), - "sigma_max": ("FLOAT", {"default": 14.614642, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), - "sigma_min": ("FLOAT", {"default": 0.0291675, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), - "rho": ("FLOAT", {"default": 7.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, steps, sigma_max, sigma_min, rho): + def execute(cls, steps, sigma_max, sigma_min, rho) -> io.NodeOutput: sigmas = k_diffusion_sampling.get_sigmas_karras(n=steps, sigma_min=sigma_min, sigma_max=sigma_max, rho=rho) - return (sigmas, ) + return io.NodeOutput(sigmas) + +class ExponentialScheduler(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="ExponentialScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Int.Input("steps", default=20, min=1, max=10000), + io.Float.Input("sigma_max", default=14.614642, min=0.0, max=5000.0, step=0.01, round=False), + io.Float.Input("sigma_min", default=0.0291675, min=0.0, max=5000.0, step=0.01, round=False), + ], + outputs=[io.Sigmas.Output()] + ) -class ExponentialScheduler: @classmethod - def INPUT_TYPES(s): - return {"required": - {"steps": ("INT", {"default": 20, "min": 1, "max": 10000}), - "sigma_max": ("FLOAT", {"default": 14.614642, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), - "sigma_min": ("FLOAT", {"default": 0.0291675, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, steps, sigma_max, sigma_min): + def execute(cls, steps, sigma_max, sigma_min) -> io.NodeOutput: sigmas = k_diffusion_sampling.get_sigmas_exponential(n=steps, sigma_min=sigma_min, sigma_max=sigma_max) - return (sigmas, ) + return io.NodeOutput(sigmas) + +class PolyexponentialScheduler(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="PolyexponentialScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Int.Input("steps", default=20, min=1, max=10000), + io.Float.Input("sigma_max", default=14.614642, min=0.0, max=5000.0, step=0.01, round=False), + io.Float.Input("sigma_min", default=0.0291675, min=0.0, max=5000.0, step=0.01, round=False), + io.Float.Input("rho", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + ], + outputs=[io.Sigmas.Output()] + ) -class PolyexponentialScheduler: @classmethod - def INPUT_TYPES(s): - return {"required": - {"steps": ("INT", {"default": 20, "min": 1, "max": 10000}), - "sigma_max": ("FLOAT", {"default": 14.614642, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), - "sigma_min": ("FLOAT", {"default": 0.0291675, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), - "rho": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, steps, sigma_max, sigma_min, rho): + def execute(cls, steps, sigma_max, sigma_min, rho) -> io.NodeOutput: sigmas = k_diffusion_sampling.get_sigmas_polyexponential(n=steps, sigma_min=sigma_min, sigma_max=sigma_max, rho=rho) - return (sigmas, ) + return io.NodeOutput(sigmas) + +class LaplaceScheduler(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="LaplaceScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Int.Input("steps", default=20, min=1, max=10000), + io.Float.Input("sigma_max", default=14.614642, min=0.0, max=5000.0, step=0.01, round=False), + io.Float.Input("sigma_min", default=0.0291675, min=0.0, max=5000.0, step=0.01, round=False), + io.Float.Input("mu", default=0.0, min=-10.0, max=10.0, step=0.1, round=False), + io.Float.Input("beta", default=0.5, min=0.0, max=10.0, step=0.1, round=False), + ], + outputs=[io.Sigmas.Output()] + ) -class LaplaceScheduler: @classmethod - def INPUT_TYPES(s): - return {"required": - {"steps": ("INT", {"default": 20, "min": 1, "max": 10000}), - "sigma_max": ("FLOAT", {"default": 14.614642, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), - "sigma_min": ("FLOAT", {"default": 0.0291675, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), - "mu": ("FLOAT", {"default": 0.0, "min": -10.0, "max": 10.0, "step":0.1, "round": False}), - "beta": ("FLOAT", {"default": 0.5, "min": 0.0, "max": 10.0, "step":0.1, "round": False}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, steps, sigma_max, sigma_min, mu, beta): + def execute(cls, steps, sigma_max, sigma_min, mu, beta) -> io.NodeOutput: sigmas = k_diffusion_sampling.get_sigmas_laplace(n=steps, sigma_min=sigma_min, sigma_max=sigma_max, mu=mu, beta=beta) - return (sigmas, ) + return io.NodeOutput(sigmas) -class SDTurboScheduler: +class SDTurboScheduler(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": - {"model": ("MODEL",), - "steps": ("INT", {"default": 1, "min": 1, "max": 10}), - "denoise": ("FLOAT", {"default": 1.0, "min": 0, "max": 1.0, "step": 0.01}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" - - FUNCTION = "get_sigmas" + def define_schema(cls): + return io.Schema( + node_id="SDTurboScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Model.Input("model"), + io.Int.Input("steps", default=1, min=1, max=10), + io.Float.Input("denoise", default=1.0, min=0, max=1.0, step=0.01), + ], + outputs=[io.Sigmas.Output()] + ) - def get_sigmas(self, model, steps, denoise): + @classmethod + def execute(cls, model, steps, denoise) -> io.NodeOutput: start_step = 10 - int(10 * denoise) timesteps = torch.flip(torch.arange(1, 11) * 100 - 1, (0,))[start_step:start_step + steps] sigmas = model.get_model_object("model_sampling").sigma(timesteps) sigmas = torch.cat([sigmas, sigmas.new_zeros([1])]) - return (sigmas, ) + return io.NodeOutput(sigmas) + +class BetaSamplingScheduler(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="BetaSamplingScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Model.Input("model"), + io.Int.Input("steps", default=20, min=1, max=10000), + io.Float.Input("alpha", default=0.6, min=0.0, max=50.0, step=0.01, round=False), + io.Float.Input("beta", default=0.6, min=0.0, max=50.0, step=0.01, round=False), + ], + outputs=[io.Sigmas.Output()] + ) -class BetaSamplingScheduler: @classmethod - def INPUT_TYPES(s): - return {"required": - {"model": ("MODEL",), - "steps": ("INT", {"default": 20, "min": 1, "max": 10000}), - "alpha": ("FLOAT", {"default": 0.6, "min": 0.0, "max": 50.0, "step":0.01, "round": False}), - "beta": ("FLOAT", {"default": 0.6, "min": 0.0, "max": 50.0, "step":0.01, "round": False}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, model, steps, alpha, beta): + def execute(cls, model, steps, alpha, beta) -> io.NodeOutput: sigmas = comfy.samplers.beta_scheduler(model.get_model_object("model_sampling"), steps, alpha=alpha, beta=beta) - return (sigmas, ) + return io.NodeOutput(sigmas) + +class VPScheduler(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="VPScheduler", + category="sampling/custom_sampling/schedulers", + inputs=[ + io.Int.Input("steps", default=20, min=1, max=10000), + io.Float.Input("beta_d", default=19.9, min=0.0, max=5000.0, step=0.01, round=False), #TODO: fix default values + io.Float.Input("beta_min", default=0.1, min=0.0, max=5000.0, step=0.01, round=False), + io.Float.Input("eps_s", default=0.001, min=0.0, max=1.0, step=0.0001, round=False), + ], + outputs=[io.Sigmas.Output()] + ) -class VPScheduler: @classmethod - def INPUT_TYPES(s): - return {"required": - {"steps": ("INT", {"default": 20, "min": 1, "max": 10000}), - "beta_d": ("FLOAT", {"default": 19.9, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), #TODO: fix default values - "beta_min": ("FLOAT", {"default": 0.1, "min": 0.0, "max": 5000.0, "step":0.01, "round": False}), - "eps_s": ("FLOAT", {"default": 0.001, "min": 0.0, "max": 1.0, "step":0.0001, "round": False}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/schedulers" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, steps, beta_d, beta_min, eps_s): + def execute(cls, steps, beta_d, beta_min, eps_s) -> io.NodeOutput: sigmas = k_diffusion_sampling.get_sigmas_vp(n=steps, beta_d=beta_d, beta_min=beta_min, eps_s=eps_s) - return (sigmas, ) + return io.NodeOutput(sigmas) + +class SplitSigmas(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SplitSigmas", + category="sampling/custom_sampling/sigmas", + inputs=[ + io.Sigmas.Input("sigmas"), + io.Int.Input("step", default=0, min=0, max=10000), + ], + outputs=[ + io.Sigmas.Output(display_name="high_sigmas"), + io.Sigmas.Output(display_name="low_sigmas"), + ] + ) -class SplitSigmas: @classmethod - def INPUT_TYPES(s): - return {"required": - {"sigmas": ("SIGMAS", ), - "step": ("INT", {"default": 0, "min": 0, "max": 10000}), - } - } - RETURN_TYPES = ("SIGMAS","SIGMAS") - RETURN_NAMES = ("high_sigmas", "low_sigmas") - CATEGORY = "sampling/custom_sampling/sigmas" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, sigmas, step): + def execute(cls, sigmas, step) -> io.NodeOutput: sigmas1 = sigmas[:step + 1] sigmas2 = sigmas[step:] - return (sigmas1, sigmas2) + return io.NodeOutput(sigmas1, sigmas2) + +class SplitSigmasDenoise(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SplitSigmasDenoise", + category="sampling/custom_sampling/sigmas", + inputs=[ + io.Sigmas.Input("sigmas"), + io.Float.Input("denoise", default=1.0, min=0.0, max=1.0, step=0.01), + ], + outputs=[ + io.Sigmas.Output(display_name="high_sigmas"), + io.Sigmas.Output(display_name="low_sigmas"), + ] + ) -class SplitSigmasDenoise: @classmethod - def INPUT_TYPES(s): - return {"required": - {"sigmas": ("SIGMAS", ), - "denoise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 1.0, "step": 0.01}), - } - } - RETURN_TYPES = ("SIGMAS","SIGMAS") - RETURN_NAMES = ("high_sigmas", "low_sigmas") - CATEGORY = "sampling/custom_sampling/sigmas" - - FUNCTION = "get_sigmas" - - def get_sigmas(self, sigmas, denoise): + def execute(cls, sigmas, denoise) -> io.NodeOutput: steps = max(sigmas.shape[-1] - 1, 0) total_steps = round(steps * denoise) sigmas1 = sigmas[:-(total_steps)] sigmas2 = sigmas[-(total_steps + 1):] - return (sigmas1, sigmas2) + return io.NodeOutput(sigmas1, sigmas2) -class FlipSigmas: +class FlipSigmas(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": - {"sigmas": ("SIGMAS", ), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/sigmas" - - FUNCTION = "get_sigmas" + def define_schema(cls): + return io.Schema( + node_id="FlipSigmas", + category="sampling/custom_sampling/sigmas", + inputs=[io.Sigmas.Input("sigmas")], + outputs=[io.Sigmas.Output()] + ) - def get_sigmas(self, sigmas): + @classmethod + def execute(cls, sigmas) -> io.NodeOutput: if len(sigmas) == 0: - return (sigmas,) + return io.NodeOutput(sigmas) sigmas = sigmas.flip(0) if sigmas[0] == 0: sigmas[0] = 0.0001 - return (sigmas,) + return io.NodeOutput(sigmas) + +class SetFirstSigma(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SetFirstSigma", + category="sampling/custom_sampling/sigmas", + inputs=[ + io.Sigmas.Input("sigmas"), + io.Float.Input("sigma", default=136.0, min=0.0, max=20000.0, step=0.001, round=False), + ], + outputs=[io.Sigmas.Output()] + ) -class SetFirstSigma: @classmethod - def INPUT_TYPES(s): - return {"required": - {"sigmas": ("SIGMAS", ), - "sigma": ("FLOAT", {"default": 136.0, "min": 0.0, "max": 20000.0, "step": 0.001, "round": False}), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/sigmas" - - FUNCTION = "set_first_sigma" - - def set_first_sigma(self, sigmas, sigma): + def execute(cls, sigmas, sigma) -> io.NodeOutput: sigmas = sigmas.clone() sigmas[0] = sigma - return (sigmas, ) + return io.NodeOutput(sigmas) + +class ExtendIntermediateSigmas(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="ExtendIntermediateSigmas", + category="sampling/custom_sampling/sigmas", + inputs=[ + io.Sigmas.Input("sigmas"), + io.Int.Input("steps", default=2, min=1, max=100), + io.Float.Input("start_at_sigma", default=-1.0, min=-1.0, max=20000.0, step=0.01, round=False), + io.Float.Input("end_at_sigma", default=12.0, min=0.0, max=20000.0, step=0.01, round=False), + io.Combo.Input("spacing", options=['linear', 'cosine', 'sine']), + ], + outputs=[io.Sigmas.Output()] + ) -class ExtendIntermediateSigmas: @classmethod - def INPUT_TYPES(s): - return {"required": - {"sigmas": ("SIGMAS", ), - "steps": ("INT", {"default": 2, "min": 1, "max": 100}), - "start_at_sigma": ("FLOAT", {"default": -1.0, "min": -1.0, "max": 20000.0, "step": 0.01, "round": False}), - "end_at_sigma": ("FLOAT", {"default": 12.0, "min": 0.0, "max": 20000.0, "step": 0.01, "round": False}), - "spacing": (['linear', 'cosine', 'sine'],), - } - } - RETURN_TYPES = ("SIGMAS",) - CATEGORY = "sampling/custom_sampling/sigmas" - - FUNCTION = "extend" - - def extend(self, sigmas: torch.Tensor, steps: int, start_at_sigma: float, end_at_sigma: float, spacing: str): + def execute(cls, sigmas: torch.Tensor, steps: int, start_at_sigma: float, end_at_sigma: float, spacing: str) -> io.NodeOutput: if start_at_sigma < 0: start_at_sigma = float("inf") @@ -299,27 +315,25 @@ def extend(self, sigmas: torch.Tensor, steps: int, start_at_sigma: float, end_at extended_sigmas = torch.FloatTensor(extended_sigmas) - return (extended_sigmas,) + return io.NodeOutput(extended_sigmas) -class SamplingPercentToSigma: +class SamplingPercentToSigma(io.ComfyNode): @classmethod - def INPUT_TYPES(cls) -> InputTypeDict: - return { - "required": { - "model": (IO.MODEL, {}), - "sampling_percent": (IO.FLOAT, {"default": 0.0, "min": 0.0, "max": 1.0, "step": 0.0001}), - "return_actual_sigma": (IO.BOOLEAN, {"default": False, "tooltip": "Return the actual sigma value instead of the value used for interval checks.\nThis only affects results at 0.0 and 1.0."}), - } - } - - RETURN_TYPES = (IO.FLOAT,) - RETURN_NAMES = ("sigma_value",) - CATEGORY = "sampling/custom_sampling/sigmas" - - FUNCTION = "get_sigma" + def define_schema(cls): + return io.Schema( + node_id="SamplingPercentToSigma", + category="sampling/custom_sampling/sigmas", + inputs=[ + io.Model.Input("model"), + io.Float.Input("sampling_percent", default=0.0, min=0.0, max=1.0, step=0.0001), + io.Boolean.Input("return_actual_sigma", default=False, tooltip="Return the actual sigma value instead of the value used for interval checks.\nThis only affects results at 0.0 and 1.0."), + ], + outputs=[io.Float.Output(display_name="sigma_value")] + ) - def get_sigma(self, model, sampling_percent, return_actual_sigma): + @classmethod + def execute(cls, model, sampling_percent, return_actual_sigma) -> io.NodeOutput: model_sampling = model.get_model_object("model_sampling") sigma_val = model_sampling.percent_to_sigma(sampling_percent) if return_actual_sigma: @@ -327,212 +341,214 @@ def get_sigma(self, model, sampling_percent, return_actual_sigma): sigma_val = model_sampling.sigma_max.item() elif sampling_percent == 1.0: sigma_val = model_sampling.sigma_min.item() - return (sigma_val,) + return io.NodeOutput(sigma_val) -class KSamplerSelect: +class KSamplerSelect(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": - {"sampler_name": (comfy.samplers.SAMPLER_NAMES, ), - } - } - RETURN_TYPES = ("SAMPLER",) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" + def define_schema(cls): + return io.Schema( + node_id="KSamplerSelect", + category="sampling/custom_sampling/samplers", + inputs=[io.Combo.Input("sampler_name", options=comfy.samplers.SAMPLER_NAMES)], + outputs=[io.Sampler.Output()] + ) - def get_sampler(self, sampler_name): + @classmethod + def execute(cls, sampler_name) -> io.NodeOutput: sampler = comfy.samplers.sampler_object(sampler_name) - return (sampler, ) + return io.NodeOutput(sampler) + +class SamplerDPMPP_3M_SDE(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerDPMPP_3M_SDE", + category="sampling/custom_sampling/samplers", + inputs=[ + io.Float.Input("eta", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("s_noise", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Combo.Input("noise_device", options=['gpu', 'cpu']), + ], + outputs=[io.Sampler.Output()] + ) -class SamplerDPMPP_3M_SDE: @classmethod - def INPUT_TYPES(s): - return {"required": - {"eta": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "s_noise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "noise_device": (['gpu', 'cpu'], ), - } - } - RETURN_TYPES = ("SAMPLER",) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" - - def get_sampler(self, eta, s_noise, noise_device): + def execute(cls, eta, s_noise, noise_device) -> io.NodeOutput: if noise_device == 'cpu': sampler_name = "dpmpp_3m_sde" else: sampler_name = "dpmpp_3m_sde_gpu" sampler = comfy.samplers.ksampler(sampler_name, {"eta": eta, "s_noise": s_noise}) - return (sampler, ) + return io.NodeOutput(sampler) + +class SamplerDPMPP_2M_SDE(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerDPMPP_2M_SDE", + category="sampling/custom_sampling/samplers", + inputs=[ + io.Combo.Input("solver_type", options=['midpoint', 'heun']), + io.Float.Input("eta", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("s_noise", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Combo.Input("noise_device", options=['gpu', 'cpu']), + ], + outputs=[io.Sampler.Output()] + ) -class SamplerDPMPP_2M_SDE: @classmethod - def INPUT_TYPES(s): - return {"required": - {"solver_type": (['midpoint', 'heun'], ), - "eta": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "s_noise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "noise_device": (['gpu', 'cpu'], ), - } - } - RETURN_TYPES = ("SAMPLER",) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" - - def get_sampler(self, solver_type, eta, s_noise, noise_device): + def execute(cls, solver_type, eta, s_noise, noise_device) -> io.NodeOutput: if noise_device == 'cpu': sampler_name = "dpmpp_2m_sde" else: sampler_name = "dpmpp_2m_sde_gpu" sampler = comfy.samplers.ksampler(sampler_name, {"eta": eta, "s_noise": s_noise, "solver_type": solver_type}) - return (sampler, ) - + return io.NodeOutput(sampler) + + +class SamplerDPMPP_SDE(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerDPMPP_SDE", + category="sampling/custom_sampling/samplers", + inputs=[ + io.Float.Input("eta", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("s_noise", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("r", default=0.5, min=0.0, max=100.0, step=0.01, round=False), + io.Combo.Input("noise_device", options=['gpu', 'cpu']), + ], + outputs=[io.Sampler.Output()] + ) -class SamplerDPMPP_SDE: @classmethod - def INPUT_TYPES(s): - return {"required": - {"eta": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "s_noise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "r": ("FLOAT", {"default": 0.5, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "noise_device": (['gpu', 'cpu'], ), - } - } - RETURN_TYPES = ("SAMPLER",) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" - - def get_sampler(self, eta, s_noise, r, noise_device): + def execute(cls, eta, s_noise, r, noise_device) -> io.NodeOutput: if noise_device == 'cpu': sampler_name = "dpmpp_sde" else: sampler_name = "dpmpp_sde_gpu" sampler = comfy.samplers.ksampler(sampler_name, {"eta": eta, "s_noise": s_noise, "r": r}) - return (sampler, ) + return io.NodeOutput(sampler) + +class SamplerDPMPP_2S_Ancestral(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerDPMPP_2S_Ancestral", + category="sampling/custom_sampling/samplers", + inputs=[ + io.Float.Input("eta", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("s_noise", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + ], + outputs=[io.Sampler.Output()] + ) -class SamplerDPMPP_2S_Ancestral: @classmethod - def INPUT_TYPES(s): - return {"required": - {"eta": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "s_noise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - } - } - RETURN_TYPES = ("SAMPLER",) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" - - def get_sampler(self, eta, s_noise): + def execute(cls, eta, s_noise) -> io.NodeOutput: sampler = comfy.samplers.ksampler("dpmpp_2s_ancestral", {"eta": eta, "s_noise": s_noise}) - return (sampler, ) + return io.NodeOutput(sampler) + +class SamplerEulerAncestral(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerEulerAncestral", + category="sampling/custom_sampling/samplers", + inputs=[ + io.Float.Input("eta", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("s_noise", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + ], + outputs=[io.Sampler.Output()] + ) -class SamplerEulerAncestral: @classmethod - def INPUT_TYPES(s): - return {"required": - {"eta": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "s_noise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - } - } - RETURN_TYPES = ("SAMPLER",) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" - - def get_sampler(self, eta, s_noise): + def execute(cls, eta, s_noise) -> io.NodeOutput: sampler = comfy.samplers.ksampler("euler_ancestral", {"eta": eta, "s_noise": s_noise}) - return (sampler, ) + return io.NodeOutput(sampler) + +class SamplerEulerAncestralCFGPP(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerEulerAncestralCFGPP", + display_name="SamplerEulerAncestralCFG++", + category="sampling/custom_sampling/samplers", + inputs=[ + io.Float.Input("eta", default=1.0, min=0.0, max=1.0, step=0.01, round=False), + io.Float.Input("s_noise", default=1.0, min=0.0, max=10.0, step=0.01, round=False), + ], + outputs=[io.Sampler.Output()] + ) -class SamplerEulerAncestralCFGPP: @classmethod - def INPUT_TYPES(s): - return { - "required": { - "eta": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 1.0, "step":0.01, "round": False}), - "s_noise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 10.0, "step":0.01, "round": False}), - }} - RETURN_TYPES = ("SAMPLER",) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" - - def get_sampler(self, eta, s_noise): + def execute(cls, eta, s_noise) -> io.NodeOutput: sampler = comfy.samplers.ksampler( "euler_ancestral_cfg_pp", {"eta": eta, "s_noise": s_noise}) - return (sampler, ) + return io.NodeOutput(sampler) -class SamplerLMS: +class SamplerLMS(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": - {"order": ("INT", {"default": 4, "min": 1, "max": 100}), - } - } - RETURN_TYPES = ("SAMPLER",) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" + def define_schema(cls): + return io.Schema( + node_id="SamplerLMS", + category="sampling/custom_sampling/samplers", + inputs=[io.Int.Input("order", default=4, min=1, max=100)], + outputs=[io.Sampler.Output()] + ) - def get_sampler(self, order): + @classmethod + def execute(cls, order) -> io.NodeOutput: sampler = comfy.samplers.ksampler("lms", {"order": order}) - return (sampler, ) - -class SamplerDPMAdaptative: - @classmethod - def INPUT_TYPES(s): - return {"required": - {"order": ("INT", {"default": 3, "min": 2, "max": 3}), - "rtol": ("FLOAT", {"default": 0.05, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "atol": ("FLOAT", {"default": 0.0078, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "h_init": ("FLOAT", {"default": 0.05, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "pcoeff": ("FLOAT", {"default": 0.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "icoeff": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "dcoeff": ("FLOAT", {"default": 0.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "accept_safety": ("FLOAT", {"default": 0.81, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "eta": ("FLOAT", {"default": 0.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - "s_noise": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 100.0, "step":0.01, "round": False}), - } - } - RETURN_TYPES = ("SAMPLER",) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" - - def get_sampler(self, order, rtol, atol, h_init, pcoeff, icoeff, dcoeff, accept_safety, eta, s_noise): + return io.NodeOutput(sampler) + +class SamplerDPMAdaptative(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerDPMAdaptative", + category="sampling/custom_sampling/samplers", + inputs=[ + io.Int.Input("order", default=3, min=2, max=3), + io.Float.Input("rtol", default=0.05, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("atol", default=0.0078, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("h_init", default=0.05, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("pcoeff", default=0.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("icoeff", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("dcoeff", default=0.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("accept_safety", default=0.81, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("eta", default=0.0, min=0.0, max=100.0, step=0.01, round=False), + io.Float.Input("s_noise", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + ], + outputs=[io.Sampler.Output()] + ) + + @classmethod + def execute(cls, order, rtol, atol, h_init, pcoeff, icoeff, dcoeff, accept_safety, eta, s_noise) -> io.NodeOutput: sampler = comfy.samplers.ksampler("dpm_adaptive", {"order": order, "rtol": rtol, "atol": atol, "h_init": h_init, "pcoeff": pcoeff, "icoeff": icoeff, "dcoeff": dcoeff, "accept_safety": accept_safety, "eta": eta, "s_noise":s_noise }) - return (sampler, ) - + return io.NodeOutput(sampler) + + +class SamplerER_SDE(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerER_SDE", + category="sampling/custom_sampling/samplers", + inputs=[ + io.Combo.Input("solver_type", options=["ER-SDE", "Reverse-time SDE", "ODE"]), + io.Int.Input("max_stage", default=3, min=1, max=3), + io.Float.Input("eta", default=1.0, min=0.0, max=100.0, step=0.01, round=False, tooltip="Stochastic strength of reverse-time SDE.\nWhen eta=0, it reduces to deterministic ODE. This setting doesn't apply to ER-SDE solver type."), + io.Float.Input("s_noise", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + ], + outputs=[io.Sampler.Output()] + ) -class SamplerER_SDE(ComfyNodeABC): @classmethod - def INPUT_TYPES(cls) -> InputTypeDict: - return { - "required": { - "solver_type": (IO.COMBO, {"options": ["ER-SDE", "Reverse-time SDE", "ODE"]}), - "max_stage": (IO.INT, {"default": 3, "min": 1, "max": 3}), - "eta": ( - IO.FLOAT, - {"default": 1.0, "min": 0.0, "max": 100.0, "step": 0.01, "round": False, "tooltip": "Stochastic strength of reverse-time SDE.\nWhen eta=0, it reduces to deterministic ODE. This setting doesn't apply to ER-SDE solver type."}, - ), - "s_noise": (IO.FLOAT, {"default": 1.0, "min": 0.0, "max": 100.0, "step": 0.01, "round": False}), - } - } - - RETURN_TYPES = (IO.SAMPLER,) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" - - def get_sampler(self, solver_type, max_stage, eta, s_noise): + def execute(cls, solver_type, max_stage, eta, s_noise) -> io.NodeOutput: if solver_type == "ODE" or (solver_type == "Reverse-time SDE" and eta == 0): eta = 0 s_noise = 0 @@ -548,32 +564,31 @@ def reverse_time_sde_noise_scaler(x): sampler_name = "er_sde" sampler = comfy.samplers.ksampler(sampler_name, {"s_noise": s_noise, "noise_scaler": noise_scaler, "max_stage": max_stage}) - return (sampler,) - + return io.NodeOutput(sampler) + + +class SamplerSASolver(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerSASolver", + category="sampling/custom_sampling/samplers", + inputs=[ + io.Model.Input("model"), + io.Float.Input("eta", default=1.0, min=0.0, max=10.0, step=0.01, round=False), + io.Float.Input("sde_start_percent", default=0.2, min=0.0, max=1.0, step=0.001), + io.Float.Input("sde_end_percent", default=0.8, min=0.0, max=1.0, step=0.001), + io.Float.Input("s_noise", default=1.0, min=0.0, max=100.0, step=0.01, round=False), + io.Int.Input("predictor_order", default=3, min=1, max=6), + io.Int.Input("corrector_order", default=4, min=0, max=6), + io.Boolean.Input("use_pece"), + io.Boolean.Input("simple_order_2"), + ], + outputs=[io.Sampler.Output()] + ) -class SamplerSASolver(ComfyNodeABC): @classmethod - def INPUT_TYPES(cls) -> InputTypeDict: - return { - "required": { - "model": (IO.MODEL, {}), - "eta": (IO.FLOAT, {"default": 1.0, "min": 0.0, "max": 10.0, "step": 0.01, "round": False},), - "sde_start_percent": (IO.FLOAT, {"default": 0.2, "min": 0.0, "max": 1.0, "step": 0.001},), - "sde_end_percent": (IO.FLOAT, {"default": 0.8, "min": 0.0, "max": 1.0, "step": 0.001},), - "s_noise": (IO.FLOAT, {"default": 1.0, "min": 0.0, "max": 100.0, "step": 0.01, "round": False},), - "predictor_order": (IO.INT, {"default": 3, "min": 1, "max": 6}), - "corrector_order": (IO.INT, {"default": 4, "min": 0, "max": 6}), - "use_pece": (IO.BOOLEAN, {}), - "simple_order_2": (IO.BOOLEAN, {}), - } - } - - RETURN_TYPES = (IO.SAMPLER,) - CATEGORY = "sampling/custom_sampling/samplers" - - FUNCTION = "get_sampler" - - def get_sampler(self, model, eta, sde_start_percent, sde_end_percent, s_noise, predictor_order, corrector_order, use_pece, simple_order_2): + def execute(cls, model, eta, sde_start_percent, sde_end_percent, s_noise, predictor_order, corrector_order, use_pece, simple_order_2) -> io.NodeOutput: model_sampling = model.get_model_object("model_sampling") start_sigma = model_sampling.percent_to_sigma(sde_start_percent) end_sigma = model_sampling.percent_to_sigma(sde_end_percent) @@ -591,7 +606,7 @@ def get_sampler(self, model, eta, sde_start_percent, sde_end_percent, s_noise, p "simple_order_2": simple_order_2, }, ) - return (sampler,) + return io.NodeOutput(sampler) class Noise_EmptyNoise: @@ -612,30 +627,31 @@ def generate_noise(self, input_latent): batch_inds = input_latent["batch_index"] if "batch_index" in input_latent else None return comfy.sample.prepare_noise(latent_image, self.seed, batch_inds) -class SamplerCustom: - @classmethod - def INPUT_TYPES(s): - return {"required": - {"model": ("MODEL",), - "add_noise": ("BOOLEAN", {"default": True}), - "noise_seed": ("INT", {"default": 0, "min": 0, "max": 0xffffffffffffffff, "control_after_generate": True}), - "cfg": ("FLOAT", {"default": 8.0, "min": 0.0, "max": 100.0, "step":0.1, "round": 0.01}), - "positive": ("CONDITIONING", ), - "negative": ("CONDITIONING", ), - "sampler": ("SAMPLER", ), - "sigmas": ("SIGMAS", ), - "latent_image": ("LATENT", ), - } - } - - RETURN_TYPES = ("LATENT","LATENT") - RETURN_NAMES = ("output", "denoised_output") - - FUNCTION = "sample" - - CATEGORY = "sampling/custom_sampling" +class SamplerCustom(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerCustom", + category="sampling/custom_sampling", + inputs=[ + io.Model.Input("model"), + io.Boolean.Input("add_noise", default=True), + io.Int.Input("noise_seed", default=0, min=0, max=0xffffffffffffffff, control_after_generate=True), + io.Float.Input("cfg", default=8.0, min=0.0, max=100.0, step=0.1, round=0.01), + io.Conditioning.Input("positive"), + io.Conditioning.Input("negative"), + io.Sampler.Input("sampler"), + io.Sigmas.Input("sigmas"), + io.Latent.Input("latent_image"), + ], + outputs=[ + io.Latent.Output(display_name="output"), + io.Latent.Output(display_name="denoised_output"), + ] + ) - def sample(self, model, add_noise, noise_seed, cfg, positive, negative, sampler, sigmas, latent_image): + @classmethod + def execute(cls, model, add_noise, noise_seed, cfg, positive, negative, sampler, sigmas, latent_image) -> io.NodeOutput: latent = latent_image latent_image = latent["samples"] latent = latent.copy() @@ -664,52 +680,52 @@ def sample(self, model, add_noise, noise_seed, cfg, positive, negative, sampler, out_denoised["samples"] = model.model.process_latent_out(x0_output["x0"].cpu()) else: out_denoised = out - return (out, out_denoised) + return io.NodeOutput(out, out_denoised) class Guider_Basic(comfy.samplers.CFGGuider): def set_conds(self, positive): self.inner_set_conds({"positive": positive}) -class BasicGuider: - @classmethod - def INPUT_TYPES(s): - return {"required": - {"model": ("MODEL",), - "conditioning": ("CONDITIONING", ), - } - } - - RETURN_TYPES = ("GUIDER",) - - FUNCTION = "get_guider" - CATEGORY = "sampling/custom_sampling/guiders" +class BasicGuider(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="BasicGuider", + category="sampling/custom_sampling/guiders", + inputs=[ + io.Model.Input("model"), + io.Conditioning.Input("conditioning"), + ], + outputs=[io.Guider.Output()] + ) - def get_guider(self, model, conditioning): + @classmethod + def execute(cls, model, conditioning) -> io.NodeOutput: guider = Guider_Basic(model) guider.set_conds(conditioning) - return (guider,) + return io.NodeOutput(guider) + +class CFGGuider(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="CFGGuider", + category="sampling/custom_sampling/guiders", + inputs=[ + io.Model.Input("model"), + io.Conditioning.Input("positive"), + io.Conditioning.Input("negative"), + io.Float.Input("cfg", default=8.0, min=0.0, max=100.0, step=0.1, round=0.01), + ], + outputs=[io.Guider.Output()] + ) -class CFGGuider: @classmethod - def INPUT_TYPES(s): - return {"required": - {"model": ("MODEL",), - "positive": ("CONDITIONING", ), - "negative": ("CONDITIONING", ), - "cfg": ("FLOAT", {"default": 8.0, "min": 0.0, "max": 100.0, "step":0.1, "round": 0.01}), - } - } - - RETURN_TYPES = ("GUIDER",) - - FUNCTION = "get_guider" - CATEGORY = "sampling/custom_sampling/guiders" - - def get_guider(self, model, positive, negative, cfg): + def execute(cls, model, positive, negative, cfg) -> io.NodeOutput: guider = comfy.samplers.CFGGuider(model) guider.set_conds(positive, negative) guider.set_cfg(cfg) - return (guider,) + return io.NodeOutput(guider) class Guider_DualCFG(comfy.samplers.CFGGuider): def set_cfg(self, cfg1, cfg2, nested=False): @@ -740,84 +756,82 @@ def predict_noise(self, x, timestep, model_options={}, seed=None): out = comfy.samplers.calc_cond_batch(self.inner_model, [negative_cond, middle_cond, positive_cond], x, timestep, model_options) return comfy.samplers.cfg_function(self.inner_model, out[1], out[0], self.cfg2, x, timestep, model_options=model_options, cond=middle_cond, uncond=negative_cond) + (out[2] - out[1]) * self.cfg1 -class DualCFGGuider: - @classmethod - def INPUT_TYPES(s): - return {"required": - {"model": ("MODEL",), - "cond1": ("CONDITIONING", ), - "cond2": ("CONDITIONING", ), - "negative": ("CONDITIONING", ), - "cfg_conds": ("FLOAT", {"default": 8.0, "min": 0.0, "max": 100.0, "step":0.1, "round": 0.01}), - "cfg_cond2_negative": ("FLOAT", {"default": 8.0, "min": 0.0, "max": 100.0, "step":0.1, "round": 0.01}), - "style": (["regular", "nested"],), - } - } - - RETURN_TYPES = ("GUIDER",) - - FUNCTION = "get_guider" - CATEGORY = "sampling/custom_sampling/guiders" +class DualCFGGuider(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="DualCFGGuider", + category="sampling/custom_sampling/guiders", + inputs=[ + io.Model.Input("model"), + io.Conditioning.Input("cond1"), + io.Conditioning.Input("cond2"), + io.Conditioning.Input("negative"), + io.Float.Input("cfg_conds", default=8.0, min=0.0, max=100.0, step=0.1, round=0.01), + io.Float.Input("cfg_cond2_negative", default=8.0, min=0.0, max=100.0, step=0.1, round=0.01), + io.Combo.Input("style", options=["regular", "nested"]), + ], + outputs=[io.Guider.Output()] + ) - def get_guider(self, model, cond1, cond2, negative, cfg_conds, cfg_cond2_negative, style): + @classmethod + def execute(cls, model, cond1, cond2, negative, cfg_conds, cfg_cond2_negative, style) -> io.NodeOutput: guider = Guider_DualCFG(model) guider.set_conds(cond1, cond2, negative) guider.set_cfg(cfg_conds, cfg_cond2_negative, nested=(style == "nested")) - return (guider,) + return io.NodeOutput(guider) -class DisableNoise: +class DisableNoise(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required":{ - } - } - - RETURN_TYPES = ("NOISE",) - FUNCTION = "get_noise" - CATEGORY = "sampling/custom_sampling/noise" - - def get_noise(self): - return (Noise_EmptyNoise(),) - + def define_schema(cls): + return io.Schema( + node_id="DisableNoise", + category="sampling/custom_sampling/noise", + inputs=[], + outputs=[io.Noise.Output()] + ) -class RandomNoise(DisableNoise): @classmethod - def INPUT_TYPES(s): - return { - "required": { - "noise_seed": ("INT", { - "default": 0, - "min": 0, - "max": 0xffffffffffffffff, - "control_after_generate": True, - }), - } - } - - def get_noise(self, noise_seed): - return (Noise_RandomNoise(noise_seed),) + def execute(cls) -> io.NodeOutput: + return io.NodeOutput(Noise_EmptyNoise()) -class SamplerCustomAdvanced: +class RandomNoise(io.ComfyNode): @classmethod - def INPUT_TYPES(s): - return {"required": - {"noise": ("NOISE", ), - "guider": ("GUIDER", ), - "sampler": ("SAMPLER", ), - "sigmas": ("SIGMAS", ), - "latent_image": ("LATENT", ), - } - } + def define_schema(cls): + return io.Schema( + node_id="RandomNoise", + category="sampling/custom_sampling/noise", + inputs=[io.Int.Input("noise_seed", default=0, min=0, max=0xffffffffffffffff, control_after_generate=True)], + outputs=[io.Noise.Output()] + ) - RETURN_TYPES = ("LATENT","LATENT") - RETURN_NAMES = ("output", "denoised_output") + @classmethod + def execute(cls, noise_seed) -> io.NodeOutput: + return io.NodeOutput(Noise_RandomNoise(noise_seed)) - FUNCTION = "sample" - CATEGORY = "sampling/custom_sampling" +class SamplerCustomAdvanced(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="SamplerCustomAdvanced", + category="sampling/custom_sampling", + inputs=[ + io.Noise.Input("noise"), + io.Guider.Input("guider"), + io.Sampler.Input("sampler"), + io.Sigmas.Input("sigmas"), + io.Latent.Input("latent_image"), + ], + outputs=[ + io.Latent.Output(display_name="output"), + io.Latent.Output(display_name="denoised_output"), + ] + ) - def sample(self, noise, guider, sampler, sigmas, latent_image): + @classmethod + def execute(cls, noise, guider, sampler, sigmas, latent_image) -> io.NodeOutput: latent = latent_image latent_image = latent["samples"] latent = latent.copy() @@ -842,28 +856,30 @@ def sample(self, noise, guider, sampler, sigmas, latent_image): out_denoised["samples"] = guider.model_patcher.model.process_latent_out(x0_output["x0"].cpu()) else: out_denoised = out - return (out, out_denoised) + return io.NodeOutput(out, out_denoised) + +class AddNoise(io.ComfyNode): + @classmethod + def define_schema(cls): + return io.Schema( + node_id="AddNoise", + category="_for_testing/custom_sampling/noise", + is_experimental=True, + inputs=[ + io.Model.Input("model"), + io.Noise.Input("noise"), + io.Sigmas.Input("sigmas"), + io.Latent.Input("latent_image"), + ], + outputs=[ + io.Latent.Output(), + ] + ) -class AddNoise: @classmethod - def INPUT_TYPES(s): - return {"required": - {"model": ("MODEL",), - "noise": ("NOISE", ), - "sigmas": ("SIGMAS", ), - "latent_image": ("LATENT", ), - } - } - - RETURN_TYPES = ("LATENT",) - - FUNCTION = "add_noise" - - CATEGORY = "_for_testing/custom_sampling/noise" - - def add_noise(self, model, noise, sigmas, latent_image): + def execute(cls, model, noise, sigmas, latent_image) -> io.NodeOutput: if len(sigmas) == 0: - return latent_image + return io.NodeOutput(latent_image) latent = latent_image latent_image = latent["samples"] @@ -887,46 +903,48 @@ def add_noise(self, model, noise, sigmas, latent_image): out = latent.copy() out["samples"] = noisy - return (out,) - - -NODE_CLASS_MAPPINGS = { - "SamplerCustom": SamplerCustom, - "BasicScheduler": BasicScheduler, - "KarrasScheduler": KarrasScheduler, - "ExponentialScheduler": ExponentialScheduler, - "PolyexponentialScheduler": PolyexponentialScheduler, - "LaplaceScheduler": LaplaceScheduler, - "VPScheduler": VPScheduler, - "BetaSamplingScheduler": BetaSamplingScheduler, - "SDTurboScheduler": SDTurboScheduler, - "KSamplerSelect": KSamplerSelect, - "SamplerEulerAncestral": SamplerEulerAncestral, - "SamplerEulerAncestralCFGPP": SamplerEulerAncestralCFGPP, - "SamplerLMS": SamplerLMS, - "SamplerDPMPP_3M_SDE": SamplerDPMPP_3M_SDE, - "SamplerDPMPP_2M_SDE": SamplerDPMPP_2M_SDE, - "SamplerDPMPP_SDE": SamplerDPMPP_SDE, - "SamplerDPMPP_2S_Ancestral": SamplerDPMPP_2S_Ancestral, - "SamplerDPMAdaptative": SamplerDPMAdaptative, - "SamplerER_SDE": SamplerER_SDE, - "SamplerSASolver": SamplerSASolver, - "SplitSigmas": SplitSigmas, - "SplitSigmasDenoise": SplitSigmasDenoise, - "FlipSigmas": FlipSigmas, - "SetFirstSigma": SetFirstSigma, - "ExtendIntermediateSigmas": ExtendIntermediateSigmas, - "SamplingPercentToSigma": SamplingPercentToSigma, - - "CFGGuider": CFGGuider, - "DualCFGGuider": DualCFGGuider, - "BasicGuider": BasicGuider, - "RandomNoise": RandomNoise, - "DisableNoise": DisableNoise, - "AddNoise": AddNoise, - "SamplerCustomAdvanced": SamplerCustomAdvanced, -} - -NODE_DISPLAY_NAME_MAPPINGS = { - "SamplerEulerAncestralCFGPP": "SamplerEulerAncestralCFG++", -} + return io.NodeOutput(out) + + +class CustomSamplersExtension(ComfyExtension): + @override + async def get_node_list(self) -> list[type[io.ComfyNode]]: + return [ + SamplerCustom, + BasicScheduler, + KarrasScheduler, + ExponentialScheduler, + PolyexponentialScheduler, + LaplaceScheduler, + VPScheduler, + BetaSamplingScheduler, + SDTurboScheduler, + KSamplerSelect, + SamplerEulerAncestral, + SamplerEulerAncestralCFGPP, + SamplerLMS, + SamplerDPMPP_3M_SDE, + SamplerDPMPP_2M_SDE, + SamplerDPMPP_SDE, + SamplerDPMPP_2S_Ancestral, + SamplerDPMAdaptative, + SamplerER_SDE, + SamplerSASolver, + SplitSigmas, + SplitSigmasDenoise, + FlipSigmas, + SetFirstSigma, + ExtendIntermediateSigmas, + SamplingPercentToSigma, + CFGGuider, + DualCFGGuider, + BasicGuider, + RandomNoise, + DisableNoise, + AddNoise, + SamplerCustomAdvanced, + ] + + +async def comfy_entrypoint() -> CustomSamplersExtension: + return CustomSamplersExtension()