diff --git a/comfy/conds.py b/comfy/conds.py index 5af3e93eaeec..55d8cdd78423 100644 --- a/comfy/conds.py +++ b/comfy/conds.py @@ -4,6 +4,25 @@ import logging +def is_equal(x, y): + if torch.is_tensor(x) and torch.is_tensor(y): + return torch.equal(x, y) + elif isinstance(x, dict) and isinstance(y, dict): + if x.keys() != y.keys(): + return False + return all(is_equal(x[k], y[k]) for k in x) + elif isinstance(x, (list, tuple)) and isinstance(y, (list, tuple)): + if type(x) is not type(y) or len(x) != len(y): + return False + return all(is_equal(a, b) for a, b in zip(x, y)) + else: + try: + return x == y + except Exception: + logging.warning("comparison issue with COND") + return False + + class CONDRegular: def __init__(self, cond): self.cond = cond @@ -84,7 +103,7 @@ def process_cond(self, batch_size, **kwargs): return self._copy_with(self.cond) def can_concat(self, other): - if self.cond != other.cond: + if not is_equal(self.cond, other.cond): return False return True diff --git a/comfy/ldm/lightricks/av_model.py b/comfy/ldm/lightricks/av_model.py index 2b080aaebfbe..553fd5b38e13 100644 --- a/comfy/ldm/lightricks/av_model.py +++ b/comfy/ldm/lightricks/av_model.py @@ -218,7 +218,7 @@ def get_av_ca_ada_values( def forward( self, x: Tuple[torch.Tensor, torch.Tensor], v_context=None, a_context=None, attention_mask=None, v_timestep=None, a_timestep=None, v_pe=None, a_pe=None, v_cross_pe=None, a_cross_pe=None, v_cross_scale_shift_timestep=None, a_cross_scale_shift_timestep=None, - v_cross_gate_timestep=None, a_cross_gate_timestep=None, transformer_options=None, + v_cross_gate_timestep=None, a_cross_gate_timestep=None, transformer_options=None, self_attention_mask=None, ) -> Tuple[torch.Tensor, torch.Tensor]: run_vx = transformer_options.get("run_vx", True) run_ax = transformer_options.get("run_ax", True) @@ -234,7 +234,7 @@ def forward( vshift_msa, vscale_msa = (self.get_ada_values(self.scale_shift_table, vx.shape[0], v_timestep, slice(0, 2))) norm_vx = comfy.ldm.common_dit.rms_norm(vx) * (1 + vscale_msa) + vshift_msa del vshift_msa, vscale_msa - attn1_out = self.attn1(norm_vx, pe=v_pe, transformer_options=transformer_options) + attn1_out = self.attn1(norm_vx, pe=v_pe, mask=self_attention_mask, transformer_options=transformer_options) del norm_vx # video cross-attention vgate_msa = self.get_ada_values(self.scale_shift_table, vx.shape[0], v_timestep, slice(2, 3))[0] @@ -726,7 +726,7 @@ def _prepare_positional_embeddings(self, pixel_coords, frame_rate, x_dtype): return [(v_pe, av_cross_video_freq_cis), (a_pe, av_cross_audio_freq_cis)] def _process_transformer_blocks( - self, x, context, attention_mask, timestep, pe, transformer_options={}, **kwargs + self, x, context, attention_mask, timestep, pe, transformer_options={}, self_attention_mask=None, **kwargs ): vx = x[0] ax = x[1] @@ -770,6 +770,7 @@ def block_wrap(args): v_cross_gate_timestep=args["v_cross_gate_timestep"], a_cross_gate_timestep=args["a_cross_gate_timestep"], transformer_options=args["transformer_options"], + self_attention_mask=args.get("self_attention_mask"), ) return out @@ -790,6 +791,7 @@ def block_wrap(args): "v_cross_gate_timestep": av_ca_a2v_gate_noise_timestep, "a_cross_gate_timestep": av_ca_v2a_gate_noise_timestep, "transformer_options": transformer_options, + "self_attention_mask": self_attention_mask, }, {"original_block": block_wrap}, ) @@ -811,6 +813,7 @@ def block_wrap(args): v_cross_gate_timestep=av_ca_a2v_gate_noise_timestep, a_cross_gate_timestep=av_ca_v2a_gate_noise_timestep, transformer_options=transformer_options, + self_attention_mask=self_attention_mask, ) return [vx, ax] diff --git a/comfy/ldm/lightricks/model.py b/comfy/ldm/lightricks/model.py index d61e19d6e6ac..60d760d29879 100644 --- a/comfy/ldm/lightricks/model.py +++ b/comfy/ldm/lightricks/model.py @@ -1,6 +1,7 @@ from abc import ABC, abstractmethod from enum import Enum import functools +import logging import math from typing import Dict, Optional, Tuple @@ -14,6 +15,8 @@ from .symmetric_patchifier import SymmetricPatchifier, latent_to_pixel_coords +logger = logging.getLogger(__name__) + def _log_base(x, base): return np.log(x) / np.log(base) @@ -415,12 +418,12 @@ def __init__( self.scale_shift_table = nn.Parameter(torch.empty(6, dim, device=device, dtype=dtype)) - def forward(self, x, context=None, attention_mask=None, timestep=None, pe=None, transformer_options={}): + def forward(self, x, context=None, attention_mask=None, timestep=None, pe=None, transformer_options={}, self_attention_mask=None): shift_msa, scale_msa, gate_msa, shift_mlp, scale_mlp, gate_mlp = (self.scale_shift_table[None, None].to(device=x.device, dtype=x.dtype) + timestep.reshape(x.shape[0], timestep.shape[1], self.scale_shift_table.shape[0], -1)).unbind(dim=2) attn1_input = comfy.ldm.common_dit.rms_norm(x) attn1_input = torch.addcmul(attn1_input, attn1_input, scale_msa).add_(shift_msa) - attn1_input = self.attn1(attn1_input, pe=pe, transformer_options=transformer_options) + attn1_input = self.attn1(attn1_input, pe=pe, mask=self_attention_mask, transformer_options=transformer_options) x.addcmul_(attn1_input, gate_msa) del attn1_input @@ -638,8 +641,16 @@ def _process_input(self, x, keyframe_idxs, denoise_mask, **kwargs): """Process input data. Must be implemented by subclasses.""" pass + def _build_guide_self_attention_mask(self, x, transformer_options, merged_args): + """Build self-attention mask for per-guide attention attenuation. + + Base implementation returns None (no attenuation). Subclasses that + support guide-based attention control should override this. + """ + return None + @abstractmethod - def _process_transformer_blocks(self, x, context, attention_mask, timestep, pe, **kwargs): + def _process_transformer_blocks(self, x, context, attention_mask, timestep, pe, self_attention_mask=None, **kwargs): """Process transformer blocks. Must be implemented by subclasses.""" pass @@ -788,9 +799,17 @@ def _forward( attention_mask = self._prepare_attention_mask(attention_mask, input_dtype) pe = self._prepare_positional_embeddings(pixel_coords, frame_rate, input_dtype) + # Build self-attention mask for per-guide attenuation + self_attention_mask = self._build_guide_self_attention_mask( + x, transformer_options, merged_args + ) + # Process transformer blocks x = self._process_transformer_blocks( - x, context, attention_mask, timestep, pe, transformer_options=transformer_options, **merged_args + x, context, attention_mask, timestep, pe, + transformer_options=transformer_options, + self_attention_mask=self_attention_mask, + **merged_args, ) # Process output @@ -890,13 +909,243 @@ def _process_input(self, x, keyframe_idxs, denoise_mask, **kwargs): pixel_coords = pixel_coords[:, :, grid_mask, ...] kf_grid_mask = grid_mask[-keyframe_idxs.shape[2]:] + + # Compute per-guide surviving token counts from guide_attention_entries. + # Each entry tracks one guide reference; they are appended in order and + # their pre_filter_counts partition the kf_grid_mask. + guide_entries = kwargs.get("guide_attention_entries", None) + if guide_entries: + total_pfc = sum(e["pre_filter_count"] for e in guide_entries) + if total_pfc != len(kf_grid_mask): + raise ValueError( + f"guide pre_filter_counts ({total_pfc}) != " + f"keyframe grid mask length ({len(kf_grid_mask)})" + ) + resolved_entries = [] + offset = 0 + for entry in guide_entries: + pfc = entry["pre_filter_count"] + entry_mask = kf_grid_mask[offset:offset + pfc] + surviving = int(entry_mask.sum().item()) + resolved_entries.append({ + **entry, + "surviving_count": surviving, + }) + offset += pfc + additional_args["resolved_guide_entries"] = resolved_entries + keyframe_idxs = keyframe_idxs[..., kf_grid_mask, :] pixel_coords[:, :, -keyframe_idxs.shape[2]:, :] = keyframe_idxs + # Total surviving guide tokens (all guides) + additional_args["num_guide_tokens"] = keyframe_idxs.shape[2] + x = self.patchify_proj(x) return x, pixel_coords, additional_args - def _process_transformer_blocks(self, x, context, attention_mask, timestep, pe, transformer_options={}, **kwargs): + def _build_guide_self_attention_mask(self, x, transformer_options, merged_args): + """Build self-attention mask for per-guide attention attenuation. + + Reads resolved_guide_entries from merged_args (computed in _process_input) + to build a log-space additive bias mask that attenuates noisy ↔ guide + attention for each guide reference independently. + + Returns None if no attenuation is needed (all strengths == 1.0 and no + spatial masks, or no guide tokens). + """ + if isinstance(x, list): + # AV model: x = [vx, ax]; use vx for token count and device + total_tokens = x[0].shape[1] + device = x[0].device + dtype = x[0].dtype + else: + total_tokens = x.shape[1] + device = x.device + dtype = x.dtype + + num_guide_tokens = merged_args.get("num_guide_tokens", 0) + if num_guide_tokens == 0: + return None + + resolved_entries = merged_args.get("resolved_guide_entries", None) + if not resolved_entries: + return None + + # Check if any attenuation is actually needed + needs_attenuation = any( + e["strength"] < 1.0 or e.get("pixel_mask") is not None + for e in resolved_entries + ) + if not needs_attenuation: + return None + + # Build per-guide-token weights for all tracked guide tokens. + # Guides are appended in order at the end of the sequence. + guide_start = total_tokens - num_guide_tokens + all_weights = [] + total_tracked = 0 + + for entry in resolved_entries: + surviving = entry["surviving_count"] + if surviving == 0: + continue + + strength = entry["strength"] + pixel_mask = entry.get("pixel_mask") + latent_shape = entry.get("latent_shape") + + if pixel_mask is not None and latent_shape is not None: + f_lat, h_lat, w_lat = latent_shape + per_token = self._downsample_mask_to_latent( + pixel_mask.to(device=device, dtype=dtype), + f_lat, h_lat, w_lat, + ) + # per_token shape: (B, f_lat*h_lat*w_lat). + # Collapse batch dim — the mask is assumed identical across the + # batch; validate and take the first element to get (1, tokens). + if per_token.shape[0] > 1: + ref = per_token[0] + for bi in range(1, per_token.shape[0]): + if not torch.equal(ref, per_token[bi]): + logger.warning( + "pixel_mask differs across batch elements; " + "using first element only." + ) + break + per_token = per_token[:1] + # `surviving` is the post-grid_mask token count. + # Clamp to surviving to handle any mismatch safely. + n_weights = min(per_token.shape[1], surviving) + weights = per_token[:, :n_weights] * strength # (1, n_weights) + else: + weights = torch.full( + (1, surviving), strength, device=device, dtype=dtype + ) + + all_weights.append(weights) + total_tracked += weights.shape[1] + + if not all_weights: + return None + + # Concatenate per-token weights for all tracked guides + tracked_weights = torch.cat(all_weights, dim=1) # (1, total_tracked) + + # Check if any weight is actually < 1.0 (otherwise no attenuation needed) + if (tracked_weights >= 1.0).all(): + return None + + # Build the mask: guide tokens are at the end of the sequence. + # Tracked guides come first (in order), untracked follow. + return self._build_self_attention_mask( + total_tokens, num_guide_tokens, total_tracked, + tracked_weights, guide_start, device, dtype, + ) + + @staticmethod + def _downsample_mask_to_latent(mask, f_lat, h_lat, w_lat): + """Downsample a pixel-space mask to per-token latent weights. + + Args: + mask: (B, 1, F_pix, H_pix, W_pix) pixel-space mask with values in [0, 1]. + f_lat: Number of latent frames (pre-dilation original count). + h_lat: Latent height (pre-dilation original height). + w_lat: Latent width (pre-dilation original width). + + Returns: + (B, F_lat * H_lat * W_lat) flattened per-token weights. + """ + b = mask.shape[0] + f_pix = mask.shape[2] + + # Spatial downsampling: area interpolation per frame + spatial_down = torch.nn.functional.interpolate( + rearrange(mask, "b 1 f h w -> (b f) 1 h w"), + size=(h_lat, w_lat), + mode="area", + ) + spatial_down = rearrange(spatial_down, "(b f) 1 h w -> b 1 f h w", b=b) + + # Temporal downsampling: first pixel frame maps to first latent frame, + # remaining pixel frames are averaged in groups for causal temporal structure. + first_frame = spatial_down[:, :, :1, :, :] + if f_pix > 1 and f_lat > 1: + remaining_pix = f_pix - 1 + remaining_lat = f_lat - 1 + t = remaining_pix // remaining_lat + if t < 1: + # Fewer pixel frames than latent frames — upsample by repeating + # the available pixel frames via nearest interpolation. + rest_flat = rearrange( + spatial_down[:, :, 1:, :, :], + "b 1 f h w -> (b h w) 1 f", + ) + rest_up = torch.nn.functional.interpolate( + rest_flat, size=remaining_lat, mode="nearest", + ) + rest = rearrange( + rest_up, "(b h w) 1 f -> b 1 f h w", + b=b, h=h_lat, w=w_lat, + ) + else: + # Trim trailing pixel frames that don't fill a complete group + usable = remaining_lat * t + rest = rearrange( + spatial_down[:, :, 1:1 + usable, :, :], + "b 1 (f t) h w -> b 1 f t h w", + t=t, + ) + rest = rest.mean(dim=3) + latent_mask = torch.cat([first_frame, rest], dim=2) + elif f_lat > 1: + # Single pixel frame but multiple latent frames — repeat the + # single frame across all latent frames. + latent_mask = first_frame.expand(-1, -1, f_lat, -1, -1) + else: + latent_mask = first_frame + + return rearrange(latent_mask, "b 1 f h w -> b (f h w)") + + @staticmethod + def _build_self_attention_mask(total_tokens, num_guide_tokens, tracked_count, + tracked_weights, guide_start, device, dtype): + """Build a log-space additive self-attention bias mask. + + Attenuates attention between noisy tokens and tracked guide tokens. + Untracked guide tokens (at the end of the guide portion) keep full attention. + + Args: + total_tokens: Total sequence length. + num_guide_tokens: Total guide tokens (all guides) at end of sequence. + tracked_count: Number of tracked guide tokens (first in the guide portion). + tracked_weights: (1, tracked_count) tensor, values in [0, 1]. + guide_start: Index where guide tokens begin in the sequence. + device: Target device. + dtype: Target dtype. + + Returns: + (1, 1, total_tokens, total_tokens) additive bias mask. + 0.0 = full attention, negative = attenuated, finfo.min = effectively fully masked. + """ + finfo = torch.finfo(dtype) + mask = torch.zeros((1, 1, total_tokens, total_tokens), device=device, dtype=dtype) + tracked_end = guide_start + tracked_count + + # Convert weights to log-space bias + w = tracked_weights.to(device=device, dtype=dtype) # (1, tracked_count) + log_w = torch.full_like(w, finfo.min) + positive_mask = w > 0 + if positive_mask.any(): + log_w[positive_mask] = torch.log(w[positive_mask].clamp(min=finfo.tiny)) + + # noisy → tracked guides: each noisy row gets the same per-guide weight + mask[:, :, :guide_start, guide_start:tracked_end] = log_w.view(1, 1, 1, -1) + # tracked guides → noisy: each guide row broadcasts its weight across noisy cols + mask[:, :, guide_start:tracked_end, :guide_start] = log_w.view(1, 1, -1, 1) + + return mask + + def _process_transformer_blocks(self, x, context, attention_mask, timestep, pe, transformer_options={}, self_attention_mask=None, **kwargs): """Process transformer blocks for LTXV.""" patches_replace = transformer_options.get("patches_replace", {}) blocks_replace = patches_replace.get("dit", {}) @@ -906,10 +1155,10 @@ def _process_transformer_blocks(self, x, context, attention_mask, timestep, pe, def block_wrap(args): out = {} - out["img"] = block(args["img"], context=args["txt"], attention_mask=args["attention_mask"], timestep=args["vec"], pe=args["pe"], transformer_options=args["transformer_options"]) + out["img"] = block(args["img"], context=args["txt"], attention_mask=args["attention_mask"], timestep=args["vec"], pe=args["pe"], transformer_options=args["transformer_options"], self_attention_mask=args.get("self_attention_mask")) return out - out = blocks_replace[("double_block", i)]({"img": x, "txt": context, "attention_mask": attention_mask, "vec": timestep, "pe": pe, "transformer_options": transformer_options}, {"original_block": block_wrap}) + out = blocks_replace[("double_block", i)]({"img": x, "txt": context, "attention_mask": attention_mask, "vec": timestep, "pe": pe, "transformer_options": transformer_options, "self_attention_mask": self_attention_mask}, {"original_block": block_wrap}) x = out["img"] else: x = block( @@ -919,6 +1168,7 @@ def block_wrap(args): timestep=timestep, pe=pe, transformer_options=transformer_options, + self_attention_mask=self_attention_mask, ) return x diff --git a/comfy/ldm/wan/vae.py b/comfy/ldm/wan/vae.py index fd125ceed712..7903c7690558 100644 --- a/comfy/ldm/wan/vae.py +++ b/comfy/ldm/wan/vae.py @@ -459,6 +459,7 @@ def __init__(self, attn_scales=[], temperal_downsample=[True, True, False], image_channels=3, + conv_out_channels=3, dropout=0.0): super().__init__() self.dim = dim @@ -474,7 +475,7 @@ def __init__(self, attn_scales, self.temperal_downsample, dropout) self.conv1 = CausalConv3d(z_dim * 2, z_dim * 2, 1) self.conv2 = CausalConv3d(z_dim, z_dim, 1) - self.decoder = Decoder3d(dim, z_dim, image_channels, dim_mult, num_res_blocks, + self.decoder = Decoder3d(dim, z_dim, conv_out_channels, dim_mult, num_res_blocks, attn_scales, self.temperal_upsample, dropout) def encode(self, x): diff --git a/comfy/model_base.py b/comfy/model_base.py index 2f49578f6d81..8f852e3c6cfe 100644 --- a/comfy/model_base.py +++ b/comfy/model_base.py @@ -76,6 +76,7 @@ class ModelType(Enum): FLUX = 8 IMG_TO_IMG = 9 FLOW_COSMOS = 10 + IMG_TO_IMG_FLOW = 11 def model_sampling(model_config, model_type): @@ -108,6 +109,8 @@ def model_sampling(model_config, model_type): elif model_type == ModelType.FLOW_COSMOS: c = comfy.model_sampling.COSMOS_RFLOW s = comfy.model_sampling.ModelSamplingCosmosRFlow + elif model_type == ModelType.IMG_TO_IMG_FLOW: + c = comfy.model_sampling.IMG_TO_IMG_FLOW class ModelSampling(s, c): pass @@ -971,6 +974,10 @@ def extra_conds(self, **kwargs): if keyframe_idxs is not None: out['keyframe_idxs'] = comfy.conds.CONDRegular(keyframe_idxs) + guide_attention_entries = kwargs.get("guide_attention_entries", None) + if guide_attention_entries is not None: + out['guide_attention_entries'] = comfy.conds.CONDConstant(guide_attention_entries) + return out def process_timestep(self, timestep, x, denoise_mask=None, **kwargs): @@ -1023,6 +1030,10 @@ def extra_conds(self, **kwargs): if latent_shapes is not None: out['latent_shapes'] = comfy.conds.CONDConstant(latent_shapes) + guide_attention_entries = kwargs.get("guide_attention_entries", None) + if guide_attention_entries is not None: + out['guide_attention_entries'] = comfy.conds.CONDConstant(guide_attention_entries) + return out def process_timestep(self, timestep, x, denoise_mask=None, audio_denoise_mask=None, **kwargs): @@ -1466,6 +1477,12 @@ def process_timestep(self, timestep, x, denoise_mask=None, **kwargs): def scale_latent_inpaint(self, sigma, noise, latent_image, **kwargs): return latent_image +class WAN21_FlowRVS(WAN21): + def __init__(self, model_config, model_type=ModelType.IMG_TO_IMG_FLOW, image_to_video=False, device=None): + model_config.unet_config["model_type"] = "t2v" + super(WAN21, self).__init__(model_config, model_type, device=device, unet_model=comfy.ldm.wan.model.WanModel) + self.image_to_video = image_to_video + class Hunyuan3Dv2(BaseModel): def __init__(self, model_config, model_type=ModelType.FLOW, device=None): super().__init__(model_config, model_type, device=device, unet_model=comfy.ldm.hunyuan3d.model.Hunyuan3Dv2) diff --git a/comfy/model_detection.py b/comfy/model_detection.py index 30ea03e8ef00..030ae6980e98 100644 --- a/comfy/model_detection.py +++ b/comfy/model_detection.py @@ -509,6 +509,9 @@ def detect_unet_config(state_dict, key_prefix, metadata=None): if ref_conv_weight is not None: dit_config["in_dim_ref_conv"] = ref_conv_weight.shape[1] + if metadata is not None and "config" in metadata: + dit_config.update(json.loads(metadata["config"]).get("transformer", {})) + return dit_config if '{}latent_in.weight'.format(key_prefix) in state_dict_keys: # Hunyuan 3D diff --git a/comfy/model_sampling.py b/comfy/model_sampling.py index 2a00ed8192f4..13860e6a296b 100644 --- a/comfy/model_sampling.py +++ b/comfy/model_sampling.py @@ -83,6 +83,16 @@ class IMG_TO_IMG(X0): def calculate_input(self, sigma, noise): return noise +class IMG_TO_IMG_FLOW(CONST): + def calculate_denoised(self, sigma, model_output, model_input): + return model_output + + def noise_scaling(self, sigma, noise, latent_image, max_denoise=False): + return latent_image + + def inverse_noise_scaling(self, sigma, latent): + return 1.0 - latent + class COSMOS_RFLOW: def calculate_input(self, sigma, noise): sigma = (sigma / (sigma + 1)) diff --git a/comfy/sd.py b/comfy/sd.py index 69d4531e31ee..de119eb8e1a6 100644 --- a/comfy/sd.py +++ b/comfy/sd.py @@ -694,8 +694,9 @@ def __init__(self, sd=None, device=None, config=None, dtype=None, metadata=None) self.latent_dim = 3 self.latent_channels = 16 self.output_channels = sd["encoder.conv1.weight"].shape[1] + self.conv_out_channels = sd["decoder.head.2.weight"].shape[0] self.pad_channel_value = 1.0 - ddconfig = {"dim": dim, "z_dim": self.latent_channels, "dim_mult": [1, 2, 4, 4], "num_res_blocks": 2, "attn_scales": [], "temperal_downsample": [False, True, True], "image_channels": self.output_channels, "dropout": 0.0} + ddconfig = {"dim": dim, "z_dim": self.latent_channels, "dim_mult": [1, 2, 4, 4], "num_res_blocks": 2, "attn_scales": [], "temperal_downsample": [False, True, True], "image_channels": self.output_channels, "conv_out_channels": self.conv_out_channels, "dropout": 0.0} self.first_stage_model = comfy.ldm.wan.vae.WanVAE(**ddconfig) self.working_dtypes = [torch.bfloat16, torch.float16, torch.float32] self.memory_used_encode = lambda shape, dtype: (1500 if shape[2]<=4 else 6000) * shape[3] * shape[4] * model_management.dtype_size(dtype) diff --git a/comfy/supported_models.py b/comfy/supported_models.py index c28be1716608..6d08ff0a55f4 100644 --- a/comfy/supported_models.py +++ b/comfy/supported_models.py @@ -1256,6 +1256,16 @@ def get_model(self, state_dict, prefix="", device=None): out = model_base.WAN22(self, image_to_video=True, device=device) return out +class WAN21_FlowRVS(WAN21_T2V): + unet_config = { + "image_model": "wan2.1", + "model_type": "flow_rvs", + } + + def get_model(self, state_dict, prefix="", device=None): + out = model_base.WAN21_FlowRVS(self, image_to_video=True, device=device) + return out + class Hunyuan3Dv2(supported_models_base.BASE): unet_config = { "image_model": "hunyuan3d2", @@ -1667,6 +1677,6 @@ def clip_target(self, state_dict={}): return supported_models_base.ClipTarget(comfy.text_encoders.ace15.ACE15Tokenizer, comfy.text_encoders.ace15.te(**detect)) -models = [LotusD, Stable_Zero123, SD15_instructpix2pix, SD15, SD20, SD21UnclipL, SD21UnclipH, SDXL_instructpix2pix, SDXLRefiner, SDXL, SSD1B, KOALA_700M, KOALA_1B, Segmind_Vega, SD_X4Upscaler, Stable_Cascade_C, Stable_Cascade_B, SV3D_u, SV3D_p, SD3, StableAudio, AuraFlow, PixArtAlpha, PixArtSigma, HunyuanDiT, HunyuanDiT1, FluxInpaint, Flux, FluxSchnell, GenmoMochi, LTXV, LTXAV, HunyuanVideo15_SR_Distilled, HunyuanVideo15, HunyuanImage21Refiner, HunyuanImage21, HunyuanVideoSkyreelsI2V, HunyuanVideoI2V, HunyuanVideo, CosmosT2V, CosmosI2V, CosmosT2IPredict2, CosmosI2VPredict2, ZImage, Lumina2, WAN22_T2V, WAN21_T2V, WAN21_I2V, WAN21_FunControl2V, WAN21_Vace, WAN21_Camera, WAN22_Camera, WAN22_S2V, WAN21_HuMo, WAN22_Animate, Hunyuan3Dv2mini, Hunyuan3Dv2, Hunyuan3Dv2_1, HiDream, Chroma, ChromaRadiance, ACEStep, ACEStep15, Omnigen2, QwenImage, Flux2, Kandinsky5Image, Kandinsky5, Anima] +models = [LotusD, Stable_Zero123, SD15_instructpix2pix, SD15, SD20, SD21UnclipL, SD21UnclipH, SDXL_instructpix2pix, SDXLRefiner, SDXL, SSD1B, KOALA_700M, KOALA_1B, Segmind_Vega, SD_X4Upscaler, Stable_Cascade_C, Stable_Cascade_B, SV3D_u, SV3D_p, SD3, StableAudio, AuraFlow, PixArtAlpha, PixArtSigma, HunyuanDiT, HunyuanDiT1, FluxInpaint, Flux, FluxSchnell, GenmoMochi, LTXV, LTXAV, HunyuanVideo15_SR_Distilled, HunyuanVideo15, HunyuanImage21Refiner, HunyuanImage21, HunyuanVideoSkyreelsI2V, HunyuanVideoI2V, HunyuanVideo, CosmosT2V, CosmosI2V, CosmosT2IPredict2, CosmosI2VPredict2, ZImage, Lumina2, WAN22_T2V, WAN21_T2V, WAN21_I2V, WAN21_FunControl2V, WAN21_Vace, WAN21_Camera, WAN22_Camera, WAN22_S2V, WAN21_HuMo, WAN22_Animate, WAN21_FlowRVS, Hunyuan3Dv2mini, Hunyuan3Dv2, Hunyuan3Dv2_1, HiDream, Chroma, ChromaRadiance, ACEStep, ACEStep15, Omnigen2, QwenImage, Flux2, Kandinsky5Image, Kandinsky5, Anima] models += [SVD_img2vid] diff --git a/comfy_extras/nodes_lt.py b/comfy_extras/nodes_lt.py index 1eeeec011f92..32fe921ff40b 100644 --- a/comfy_extras/nodes_lt.py +++ b/comfy_extras/nodes_lt.py @@ -134,6 +134,36 @@ def execute(cls, vae, image, latent, strength, bypass=False) -> io.NodeOutput: generate = execute # TODO: remove +def _append_guide_attention_entry(positive, negative, pre_filter_count, latent_shape, strength=1.0): + """Append a guide_attention_entry to both positive and negative conditioning. + + Each entry tracks one guide reference for per-reference attention control. + Entries are derived independently from each conditioning to avoid cross-contamination. + """ + new_entry = { + "pre_filter_count": pre_filter_count, + "strength": strength, + "pixel_mask": None, + "latent_shape": latent_shape, + } + results = [] + for cond in (positive, negative): + # Read existing entries from this specific conditioning + existing = [] + for t in cond: + found = t[1].get("guide_attention_entries", None) + if found is not None: + existing = found + break + # Shallow copy and append (no deepcopy needed — entries contain + # only scalars and None for pixel_mask at this call site). + entries = [*existing, new_entry] + results.append(node_helpers.conditioning_set_values( + cond, {"guide_attention_entries": entries} + )) + return results[0], results[1] + + def conditioning_get_any_value(conditioning, key, default=None): for t in conditioning: if key in t[1]: @@ -324,6 +354,13 @@ def execute(cls, positive, negative, vae, latent, image, frame_idx, strength) -> scale_factors, ) + # Track this guide for per-reference attention control. + pre_filter_count = t.shape[2] * t.shape[3] * t.shape[4] + guide_latent_shape = list(t.shape[2:]) # [F, H, W] + positive, negative = _append_guide_attention_entry( + positive, negative, pre_filter_count, guide_latent_shape, strength=strength, + ) + return io.NodeOutput(positive, negative, {"samples": latent_image, "noise_mask": noise_mask}) generate = execute # TODO: remove @@ -359,8 +396,14 @@ def execute(cls, positive, negative, latent) -> io.NodeOutput: latent_image = latent_image[:, :, :-num_keyframes] noise_mask = noise_mask[:, :, :-num_keyframes] - positive = node_helpers.conditioning_set_values(positive, {"keyframe_idxs": None}) - negative = node_helpers.conditioning_set_values(negative, {"keyframe_idxs": None}) + positive = node_helpers.conditioning_set_values(positive, { + "keyframe_idxs": None, + "guide_attention_entries": None, + }) + negative = node_helpers.conditioning_set_values(negative, { + "keyframe_idxs": None, + "guide_attention_entries": None, + }) return io.NodeOutput(positive, negative, {"samples": latent_image, "noise_mask": noise_mask}) diff --git a/comfy_extras/nodes_model_advanced.py b/comfy_extras/nodes_model_advanced.py index 9601a5f76646..8bf6a1afa0c7 100644 --- a/comfy_extras/nodes_model_advanced.py +++ b/comfy_extras/nodes_model_advanced.py @@ -52,7 +52,7 @@ class ModelSamplingDiscrete: @classmethod def INPUT_TYPES(s): return {"required": { "model": ("MODEL",), - "sampling": (["eps", "v_prediction", "lcm", "x0", "img_to_img"],), + "sampling": (["eps", "v_prediction", "lcm", "x0", "img_to_img", "img_to_img_flow"],), "zsnr": ("BOOLEAN", {"default": False, "advanced": True}), }} @@ -76,6 +76,8 @@ def patch(self, model, sampling, zsnr): sampling_type = comfy.model_sampling.X0 elif sampling == "img_to_img": sampling_type = comfy.model_sampling.IMG_TO_IMG + elif sampling == "img_to_img_flow": + sampling_type = comfy.model_sampling.IMG_TO_IMG_FLOW class ModelSamplingAdvanced(sampling_base, sampling_type): pass diff --git a/comfy_extras/nodes_post_processing.py b/comfy_extras/nodes_post_processing.py index c67245e7a2fa..4a0f7141adf2 100644 --- a/comfy_extras/nodes_post_processing.py +++ b/comfy_extras/nodes_post_processing.py @@ -79,7 +79,6 @@ def define_schema(cls): node_id="ImageBlur", display_name="Image Blur", category="image/postprocessing", - essentials_category="Image Tools", inputs=[ io.Image.Input("image"), io.Int.Input("blur_radius", default=1, min=1, max=31, step=1), @@ -568,6 +567,7 @@ def define_schema(cls): node_id="BatchImagesNode", display_name="Batch Images", category="image", + essentials_category="Image Tools", search_aliases=["batch", "image batch", "batch images", "combine images", "merge images", "stack images"], inputs=[ io.Autogrow.Input("images", template=autogrow_template) diff --git a/comfy_extras/nodes_video.py b/comfy_extras/nodes_video.py index db7c171a2bd6..5c096c232e1b 100644 --- a/comfy_extras/nodes_video.py +++ b/comfy_extras/nodes_video.py @@ -147,7 +147,6 @@ def define_schema(cls): search_aliases=["extract frames", "split video", "video to images", "demux"], display_name="Get Video Components", category="image/video", - essentials_category="Video Tools", description="Extracts all components from a video: frames, audio, and framerate.", inputs=[ io.Video.Input("video", tooltip="The video to extract components from."), @@ -218,6 +217,7 @@ def define_schema(cls): "start time", ], category="image/video", + essentials_category="Video Tools", inputs=[ io.Video.Input("video"), io.Float.Input( diff --git a/nodes.py b/nodes.py index e2fc20d53f0d..bff073e30304 100644 --- a/nodes.py +++ b/nodes.py @@ -1925,7 +1925,6 @@ def invert(self, image): class ImageBatch: SEARCH_ALIASES = ["combine images", "merge images", "stack images"] - ESSENTIALS_CATEGORY = "Image Tools" @classmethod def INPUT_TYPES(s):