132 lines
3.7 KiB
Python
132 lines
3.7 KiB
Python
import comfy.utils
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import torch
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def reshape_latent_to(target_shape, latent):
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if latent.shape[1:] != target_shape[1:]:
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latent = comfy.utils.common_upscale(latent, target_shape[3], target_shape[2], "bilinear", "center")
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return comfy.utils.repeat_to_batch_size(latent, target_shape[0])
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class LatentAdd:
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@classmethod
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def INPUT_TYPES(s):
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return {"required": { "samples1": ("LATENT",), "samples2": ("LATENT",)}}
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RETURN_TYPES = ("LATENT",)
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FUNCTION = "op"
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CATEGORY = "latent/advanced"
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def op(self, samples1, samples2):
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samples_out = samples1.copy()
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s1 = samples1["samples"]
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s2 = samples2["samples"]
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s2 = reshape_latent_to(s1.shape, s2)
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samples_out["samples"] = s1 + s2
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return (samples_out,)
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class LatentSubtract:
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@classmethod
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def INPUT_TYPES(s):
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return {"required": { "samples1": ("LATENT",), "samples2": ("LATENT",)}}
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RETURN_TYPES = ("LATENT",)
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FUNCTION = "op"
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CATEGORY = "latent/advanced"
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def op(self, samples1, samples2):
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samples_out = samples1.copy()
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s1 = samples1["samples"]
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s2 = samples2["samples"]
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s2 = reshape_latent_to(s1.shape, s2)
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samples_out["samples"] = s1 - s2
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return (samples_out,)
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class LatentMultiply:
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@classmethod
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def INPUT_TYPES(s):
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return {"required": { "samples": ("LATENT",),
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"multiplier": ("FLOAT", {"default": 1.0, "min": -10.0, "max": 10.0, "step": 0.01}),
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}}
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RETURN_TYPES = ("LATENT",)
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FUNCTION = "op"
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CATEGORY = "latent/advanced"
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def op(self, samples, multiplier):
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samples_out = samples.copy()
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s1 = samples["samples"]
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samples_out["samples"] = s1 * multiplier
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return (samples_out,)
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class LatentInterpolate:
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@classmethod
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def INPUT_TYPES(s):
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return {"required": { "samples1": ("LATENT",),
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"samples2": ("LATENT",),
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"ratio": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 1.0, "step": 0.01}),
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}}
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RETURN_TYPES = ("LATENT",)
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FUNCTION = "op"
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CATEGORY = "latent/advanced"
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def op(self, samples1, samples2, ratio):
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samples_out = samples1.copy()
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s1 = samples1["samples"]
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s2 = samples2["samples"]
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s2 = reshape_latent_to(s1.shape, s2)
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m1 = torch.linalg.vector_norm(s1, dim=(1))
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m2 = torch.linalg.vector_norm(s2, dim=(1))
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s1 = torch.nan_to_num(s1 / m1)
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s2 = torch.nan_to_num(s2 / m2)
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t = (s1 * ratio + s2 * (1.0 - ratio))
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mt = torch.linalg.vector_norm(t, dim=(1))
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st = torch.nan_to_num(t / mt)
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samples_out["samples"] = st * (m1 * ratio + m2 * (1.0 - ratio))
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return (samples_out,)
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class LatentBatch:
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@classmethod
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def INPUT_TYPES(s):
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return {"required": { "samples1": ("LATENT",), "samples2": ("LATENT",)}}
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RETURN_TYPES = ("LATENT",)
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FUNCTION = "batch"
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CATEGORY = "latent/batch"
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def batch(self, samples1, samples2):
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samples_out = samples1.copy()
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s1 = samples1["samples"]
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s2 = samples2["samples"]
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if s1.shape[1:] != s2.shape[1:]:
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s2 = comfy.utils.common_upscale(s2, s1.shape[3], s1.shape[2], "bilinear", "center")
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s = torch.cat((s1, s2), dim=0)
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samples_out["samples"] = s
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samples_out["batch_index"] = samples1.get("batch_index", [x for x in range(0, s1.shape[0])]) + samples2.get("batch_index", [x for x in range(0, s2.shape[0])])
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return (samples_out,)
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NODE_CLASS_MAPPINGS = {
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"LatentAdd": LatentAdd,
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"LatentSubtract": LatentSubtract,
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"LatentMultiply": LatentMultiply,
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"LatentInterpolate": LatentInterpolate,
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"LatentBatch": LatentBatch,
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}
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