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Dante 2026-03-24 07:23:38 +09:00 committed by GitHub
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31 changed files with 866 additions and 160 deletions
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54
comfy/context_windows.py
View File

@ -93,6 +93,50 @@ class IndexListCallbacks:
return {}
def slice_cond(cond_value, window: IndexListContextWindow, x_in: torch.Tensor, device, temporal_dim: int, temporal_scale: int=1, temporal_offset: int=0, retain_index_list: list[int]=[]):
if not (hasattr(cond_value, "cond") and isinstance(cond_value.cond, torch.Tensor)):
return None
cond_tensor = cond_value.cond
if temporal_dim >= cond_tensor.ndim:
return None
cond_size = cond_tensor.size(temporal_dim)
if temporal_scale == 1:
expected_size = x_in.size(window.dim) - temporal_offset
if cond_size != expected_size:
return None
if temporal_offset == 0 and temporal_scale == 1:
sliced = window.get_tensor(cond_tensor, device, dim=temporal_dim, retain_index_list=retain_index_list)
return cond_value._copy_with(sliced)
# skip leading latent positions that have no corresponding conditioning (e.g. reference frames)
if temporal_offset > 0:
indices = [i - temporal_offset for i in window.index_list[temporal_offset:]]
indices = [i for i in indices if 0 <= i]
else:
indices = list(window.index_list)
if not indices:
return None
if temporal_scale > 1:
scaled = []
for i in indices:
for k in range(temporal_scale):
si = i * temporal_scale + k
if si < cond_size:
scaled.append(si)
indices = scaled
if not indices:
return None
idx = tuple([slice(None)] * temporal_dim + [indices])
sliced = cond_tensor[idx].to(device)
return cond_value._copy_with(sliced)
@dataclass
class ContextSchedule:
name: str
@ -177,10 +221,17 @@ class IndexListContextHandler(ContextHandlerABC):
new_cond_item[cond_key] = result
handled = True
break
if not handled and self._model is not None:
result = self._model.resize_cond_for_context_window(
cond_key, cond_value, window, x_in, device,
retain_index_list=self.cond_retain_index_list)
if result is not None:
new_cond_item[cond_key] = result
handled = True
if handled:
continue
if isinstance(cond_value, torch.Tensor):
if (self.dim < cond_value.ndim and cond_value(self.dim) == x_in.size(self.dim)) or \
if (self.dim < cond_value.ndim and cond_value.size(self.dim) == x_in.size(self.dim)) or \
(cond_value.ndim < self.dim and cond_value.size(0) == x_in.size(self.dim)):
new_cond_item[cond_key] = window.get_tensor(cond_value, device)
# Handle audio_embed (temporal dim is 1)
@ -224,6 +275,7 @@ class IndexListContextHandler(ContextHandlerABC):
return context_windows
def execute(self, calc_cond_batch: Callable, model: BaseModel, conds: list[list[dict]], x_in: torch.Tensor, timestep: torch.Tensor, model_options: dict[str]):
self._model = model
self.set_step(timestep, model_options)
context_windows = self.get_context_windows(model, x_in, model_options)
enumerated_context_windows = list(enumerate(context_windows))

2
comfy/ldm/flux/model.py
View File

@ -386,7 +386,7 @@ class Flux(nn.Module):
h = max(h, ref.shape[-2] + h_offset)
w = max(w, ref.shape[-1] + w_offset)
kontext, kontext_ids = self.process_img(ref, index=index, h_offset=h_offset, w_offset=w_offset)
kontext, kontext_ids = self.process_img(ref, index=index, h_offset=h_offset, w_offset=w_offset, transformer_options=transformer_options)
img = torch.cat([img, kontext], dim=1)
img_ids = torch.cat([img_ids, kontext_ids], dim=1)
ref_num_tokens.append(kontext.shape[1])

42
comfy/ldm/lightricks/av_model.py
View File

@ -681,6 +681,33 @@ class LTXAVModel(LTXVModel):
additional_args["has_spatial_mask"] = has_spatial_mask
ax, a_latent_coords = self.a_patchifier.patchify(ax)
# Inject reference audio for ID-LoRA in-context conditioning
ref_audio = kwargs.get("ref_audio", None)
ref_audio_seq_len = 0
if ref_audio is not None:
ref_tokens = ref_audio["tokens"].to(dtype=ax.dtype, device=ax.device)
if ref_tokens.shape[0] < ax.shape[0]:
ref_tokens = ref_tokens.expand(ax.shape[0], -1, -1)
ref_audio_seq_len = ref_tokens.shape[1]
B = ax.shape[0]
# Compute negative temporal positions matching ID-LoRA convention:
# offset by -(end_of_last_token + time_per_latent) so reference ends just before t=0
p = self.a_patchifier
tpl = p.hop_length * p.audio_latent_downsample_factor / p.sample_rate
ref_start = p._get_audio_latent_time_in_sec(0, ref_audio_seq_len, torch.float32, ax.device)
ref_end = p._get_audio_latent_time_in_sec(1, ref_audio_seq_len + 1, torch.float32, ax.device)
time_offset = ref_end[-1].item() + tpl
ref_start = (ref_start - time_offset).unsqueeze(0).expand(B, -1).unsqueeze(1)
ref_end = (ref_end - time_offset).unsqueeze(0).expand(B, -1).unsqueeze(1)
ref_pos = torch.stack([ref_start, ref_end], dim=-1)
additional_args["ref_audio_seq_len"] = ref_audio_seq_len
additional_args["target_audio_seq_len"] = ax.shape[1]
ax = torch.cat([ref_tokens, ax], dim=1)
a_latent_coords = torch.cat([ref_pos.to(a_latent_coords), a_latent_coords], dim=2)
ax = self.audio_patchify_proj(ax)
# additional_args.update({"av_orig_shape": list(x.shape)})
@ -721,6 +748,14 @@ class LTXAVModel(LTXVModel):
# Prepare audio timestep
a_timestep = kwargs.get("a_timestep")
ref_audio_seq_len = kwargs.get("ref_audio_seq_len", 0)
if ref_audio_seq_len > 0 and a_timestep is not None:
# Reference tokens must have timestep=0, expand scalar/1D timestep to per-token so ref=0 and target=sigma.
target_len = kwargs.get("target_audio_seq_len")
if a_timestep.dim() <= 1:
a_timestep = a_timestep.view(-1, 1).expand(batch_size, target_len)
ref_ts = torch.zeros(batch_size, ref_audio_seq_len, *a_timestep.shape[2:], device=a_timestep.device, dtype=a_timestep.dtype)
a_timestep = torch.cat([ref_ts, a_timestep], dim=1)
if a_timestep is not None:
a_timestep_scaled = a_timestep * self.timestep_scale_multiplier
a_timestep_flat = a_timestep_scaled.flatten()
@ -955,6 +990,13 @@ class LTXAVModel(LTXVModel):
v_embedded_timestep = embedded_timestep[0]
a_embedded_timestep = embedded_timestep[1]
# Trim reference audio tokens before unpatchification
ref_audio_seq_len = kwargs.get("ref_audio_seq_len", 0)
if ref_audio_seq_len > 0:
ax = ax[:, ref_audio_seq_len:]
if a_embedded_timestep.shape[1] > 1:
a_embedded_timestep = a_embedded_timestep[:, ref_audio_seq_len:]
# Expand compressed video timestep if needed
if isinstance(v_embedded_timestep, CompressedTimestep):
v_embedded_timestep = v_embedded_timestep.expand()

16
comfy/ldm/lightricks/vae/causal_conv3d.py
View File

@ -23,6 +23,11 @@ class CausalConv3d(nn.Module):
self.in_channels = in_channels
self.out_channels = out_channels
if isinstance(stride, int):
self.time_stride = stride
else:
self.time_stride = stride[0]
kernel_size = (kernel_size, kernel_size, kernel_size)
self.time_kernel_size = kernel_size[0]
@ -58,18 +63,23 @@ class CausalConv3d(nn.Module):
pieces = [ cached, x ]
if is_end and not causal:
pieces.append(x[:, :, -1:, :, :].repeat((1, 1, (self.time_kernel_size - 1) // 2, 1, 1)))
input_length = sum([piece.shape[2] for piece in pieces])
cache_length = (self.time_kernel_size - self.time_stride) + ((input_length - self.time_kernel_size) % self.time_stride)
needs_caching = not is_end
if needs_caching and x.shape[2] >= self.time_kernel_size - 1:
if needs_caching and cache_length == 0:
self.temporal_cache_state[tid] = (x[:, :, :0, :, :], False)
needs_caching = False
self.temporal_cache_state[tid] = (x[:, :, -(self.time_kernel_size - 1):, :, :], False)
if needs_caching and x.shape[2] >= cache_length:
needs_caching = False
self.temporal_cache_state[tid] = (x[:, :, -cache_length:, :, :], False)
x = torch.cat(pieces, dim=2)
del pieces
del cached
if needs_caching:
self.temporal_cache_state[tid] = (x[:, :, -(self.time_kernel_size - 1):, :, :], False)
self.temporal_cache_state[tid] = (x[:, :, -cache_length:, :, :], False)
elif is_end:
self.temporal_cache_state[tid] = (None, True)

222
comfy/ldm/lightricks/vae/causal_video_autoencoder.py
View File

@ -233,10 +233,7 @@ class Encoder(nn.Module):
self.gradient_checkpointing = False
def forward_orig(self, sample: torch.FloatTensor) -> torch.FloatTensor:
r"""The forward method of the `Encoder` class."""
sample = patchify(sample, patch_size_hw=self.patch_size, patch_size_t=1)
def _forward_chunk(self, sample: torch.FloatTensor) -> Optional[torch.FloatTensor]:
sample = self.conv_in(sample)
checkpoint_fn = (
@ -247,10 +244,14 @@ class Encoder(nn.Module):
for down_block in self.down_blocks:
sample = checkpoint_fn(down_block)(sample)
if sample is None or sample.shape[2] == 0:
return None
sample = self.conv_norm_out(sample)
sample = self.conv_act(sample)
sample = self.conv_out(sample)
if sample is None or sample.shape[2] == 0:
return None
if self.latent_log_var == "uniform":
last_channel = sample[:, -1:, ...]
@ -282,9 +283,35 @@ class Encoder(nn.Module):
return sample
def forward_orig(self, sample: torch.FloatTensor, device=None) -> torch.FloatTensor:
r"""The forward method of the `Encoder` class."""
max_chunk_size = get_max_chunk_size(sample.device if device is None else device) * 2 # encoder is more memory-efficient than decoder
frame_size = sample[:, :, :1, :, :].numel() * sample.element_size()
frame_size = int(frame_size * (self.conv_in.out_channels / self.conv_in.in_channels))
outputs = []
samples = [sample[:, :, :1, :, :]]
if sample.shape[2] > 1:
chunk_t = max(2, max_chunk_size // frame_size)
if chunk_t < 4:
chunk_t = 2
elif chunk_t < 8:
chunk_t = 4
else:
chunk_t = (chunk_t // 8) * 8
samples += list(torch.split(sample[:, :, 1:, :, :], chunk_t, dim=2))
for chunk_idx, chunk in enumerate(samples):
if chunk_idx == len(samples) - 1:
mark_conv3d_ended(self)
chunk = patchify(chunk, patch_size_hw=self.patch_size, patch_size_t=1).to(device=device)
output = self._forward_chunk(chunk)
if output is not None:
outputs.append(output)
return torch_cat_if_needed(outputs, dim=2)
def forward(self, *args, **kwargs):
#No encoder support so just flag the end so it doesnt use the cache.
mark_conv3d_ended(self)
try:
return self.forward_orig(*args, **kwargs)
finally:
@ -473,6 +500,17 @@ class Decoder(nn.Module):
self.gradient_checkpointing = False
# Precompute output scale factors: (channels, (t_scale, h_scale, w_scale), t_offset)
ts, hs, ws, to = 1, 1, 1, 0
for block in self.up_blocks:
if isinstance(block, DepthToSpaceUpsample):
ts *= block.stride[0]
hs *= block.stride[1]
ws *= block.stride[2]
if block.stride[0] > 1:
to = to * block.stride[0] + 1
self._output_scale = (out_channels // (patch_size ** 2), (ts, hs * patch_size, ws * patch_size), to)
self.timestep_conditioning = timestep_conditioning
if timestep_conditioning:
@ -494,11 +532,62 @@ class Decoder(nn.Module):
)
# def forward(self, sample: torch.FloatTensor, target_shape) -> torch.FloatTensor:
def decode_output_shape(self, input_shape):
c, (ts, hs, ws), to = self._output_scale
return (input_shape[0], c, input_shape[2] * ts - to, input_shape[3] * hs, input_shape[4] * ws)
def run_up(self, idx, sample_ref, ended, timestep_shift_scale, scaled_timestep, checkpoint_fn, output_buffer, output_offset, max_chunk_size):
sample = sample_ref[0]
sample_ref[0] = None
if idx >= len(self.up_blocks):
sample = self.conv_norm_out(sample)
if timestep_shift_scale is not None:
shift, scale = timestep_shift_scale
sample = sample * (1 + scale) + shift
sample = self.conv_act(sample)
if ended:
mark_conv3d_ended(self.conv_out)
sample = self.conv_out(sample, causal=self.causal)
if sample is not None and sample.shape[2] > 0:
sample = unpatchify(sample, patch_size_hw=self.patch_size, patch_size_t=1)
t = sample.shape[2]
output_buffer[:, :, output_offset[0]:output_offset[0] + t].copy_(sample)
output_offset[0] += t
return
up_block = self.up_blocks[idx]
if ended:
mark_conv3d_ended(up_block)
if self.timestep_conditioning and isinstance(up_block, UNetMidBlock3D):
sample = checkpoint_fn(up_block)(
sample, causal=self.causal, timestep=scaled_timestep
)
else:
sample = checkpoint_fn(up_block)(sample, causal=self.causal)
if sample is None or sample.shape[2] == 0:
return
total_bytes = sample.numel() * sample.element_size()
num_chunks = (total_bytes + max_chunk_size - 1) // max_chunk_size
if num_chunks == 1:
# when we are not chunking, detach our x so the callee can free it as soon as they are done
next_sample_ref = [sample]
del sample
self.run_up(idx + 1, next_sample_ref, ended, timestep_shift_scale, scaled_timestep, checkpoint_fn, output_buffer, output_offset, max_chunk_size)
return
else:
samples = torch.chunk(sample, chunks=num_chunks, dim=2)
for chunk_idx, sample1 in enumerate(samples):
self.run_up(idx + 1, [sample1], ended and chunk_idx == len(samples) - 1, timestep_shift_scale, scaled_timestep, checkpoint_fn, output_buffer, output_offset, max_chunk_size)
def forward_orig(
self,
sample: torch.FloatTensor,
timestep: Optional[torch.Tensor] = None,
output_buffer: Optional[torch.Tensor] = None,
) -> torch.FloatTensor:
r"""The forward method of the `Decoder` class."""
batch_size = sample.shape[0]
@ -513,6 +602,7 @@ class Decoder(nn.Module):
)
timestep_shift_scale = None
scaled_timestep = None
if self.timestep_conditioning:
assert (
timestep is not None
@ -540,59 +630,18 @@ class Decoder(nn.Module):
)
timestep_shift_scale = ada_values.unbind(dim=1)
output = []
if output_buffer is None:
output_buffer = torch.empty(
self.decode_output_shape(sample.shape),
dtype=sample.dtype, device=comfy.model_management.intermediate_device(),
)
output_offset = [0]
max_chunk_size = get_max_chunk_size(sample.device)
def run_up(idx, sample_ref, ended):
sample = sample_ref[0]
sample_ref[0] = None
if idx >= len(self.up_blocks):
sample = self.conv_norm_out(sample)
if timestep_shift_scale is not None:
shift, scale = timestep_shift_scale
sample = sample * (1 + scale) + shift
sample = self.conv_act(sample)
if ended:
mark_conv3d_ended(self.conv_out)
sample = self.conv_out(sample, causal=self.causal)
if sample is not None and sample.shape[2] > 0:
output.append(sample.to(comfy.model_management.intermediate_device()))
return
self.run_up(0, [sample], True, timestep_shift_scale, scaled_timestep, checkpoint_fn, output_buffer, output_offset, max_chunk_size)
up_block = self.up_blocks[idx]
if (ended):
mark_conv3d_ended(up_block)
if self.timestep_conditioning and isinstance(up_block, UNetMidBlock3D):
sample = checkpoint_fn(up_block)(
sample, causal=self.causal, timestep=scaled_timestep
)
else:
sample = checkpoint_fn(up_block)(sample, causal=self.causal)
if sample is None or sample.shape[2] == 0:
return
total_bytes = sample.numel() * sample.element_size()
num_chunks = (total_bytes + max_chunk_size - 1) // max_chunk_size
if num_chunks == 1:
# when we are not chunking, detach our x so the callee can free it as soon as they are done
next_sample_ref = [sample]
del sample
run_up(idx + 1, next_sample_ref, ended)
return
else:
samples = torch.chunk(sample, chunks=num_chunks, dim=2)
for chunk_idx, sample1 in enumerate(samples):
run_up(idx + 1, [sample1], ended and chunk_idx == len(samples) - 1)
run_up(0, [sample], True)
sample = torch.cat(output, dim=2)
sample = unpatchify(sample, patch_size_hw=self.patch_size, patch_size_t=1)
return sample
return output_buffer
def forward(self, *args, **kwargs):
try:
@ -716,12 +765,25 @@ class SpaceToDepthDownsample(nn.Module):
causal=True,
spatial_padding_mode=spatial_padding_mode,
)
self.temporal_cache_state = {}
def forward(self, x, causal: bool = True):
if self.stride[0] == 2:
tid = threading.get_ident()
cached, pad_first, cached_x, cached_input = self.temporal_cache_state.get(tid, (None, True, None, None))
if cached_input is not None:
x = torch_cat_if_needed([cached_input, x], dim=2)
cached_input = None
if self.stride[0] == 2 and pad_first:
x = torch.cat(
[x[:, :, :1, :, :], x], dim=2
) # duplicate first frames for padding
pad_first = False
if x.shape[2] < self.stride[0]:
cached_input = x
self.temporal_cache_state[tid] = (cached, pad_first, cached_x, cached_input)
return None
# skip connection
x_in = rearrange(
@ -736,15 +798,26 @@ class SpaceToDepthDownsample(nn.Module):
# conv
x = self.conv(x, causal=causal)
x = rearrange(
x,
"b c (d p1) (h p2) (w p3) -> b (c p1 p2 p3) d h w",
p1=self.stride[0],
p2=self.stride[1],
p3=self.stride[2],
)
if self.stride[0] == 2 and x.shape[2] == 1:
if cached_x is not None:
x = torch_cat_if_needed([cached_x, x], dim=2)
cached_x = None
else:
cached_x = x
x = None
x = x + x_in
if x is not None:
x = rearrange(
x,
"b c (d p1) (h p2) (w p3) -> b (c p1 p2 p3) d h w",
p1=self.stride[0],
p2=self.stride[1],
p3=self.stride[2],
)
cached = add_exchange_cache(x, cached, x_in, dim=2)
self.temporal_cache_state[tid] = (cached, pad_first, cached_x, cached_input)
return x
@ -1077,6 +1150,8 @@ class processor(nn.Module):
return (x - self.get_buffer("mean-of-means").view(1, -1, 1, 1, 1).to(x)) / self.get_buffer("std-of-means").view(1, -1, 1, 1, 1).to(x)
class VideoVAE(nn.Module):
comfy_has_chunked_io = True
def __init__(self, version=0, config=None):
super().__init__()
@ -1219,14 +1294,15 @@ class VideoVAE(nn.Module):
}
return config
def encode(self, x):
frames_count = x.shape[2]
if ((frames_count - 1) % 8) != 0:
raise ValueError("Invalid number of frames: Encode input must have 1 + 8 * x frames (e.g., 1, 9, 17, ...). Please check your input.")
means, logvar = torch.chunk(self.encoder(x), 2, dim=1)
def encode(self, x, device=None):
x = x[:, :, :max(1, 1 + ((x.shape[2] - 1) // 8) * 8), :, :]
means, logvar = torch.chunk(self.encoder(x, device=device), 2, dim=1)
return self.per_channel_statistics.normalize(means)
def decode(self, x):
def decode_output_shape(self, input_shape):
return self.decoder.decode_output_shape(input_shape)
def decode(self, x, output_buffer=None):
if self.timestep_conditioning: #TODO: seed
x = torch.randn_like(x) * self.decode_noise_scale + (1.0 - self.decode_noise_scale) * x
return self.decoder(self.per_channel_statistics.un_normalize(x), timestep=self.decode_timestep)
return self.decoder(self.per_channel_statistics.un_normalize(x), timestep=self.decode_timestep, output_buffer=output_buffer)

74
comfy/ldm/wan/vae.py
View File

@ -360,6 +360,43 @@ class Decoder3d(nn.Module):
RMS_norm(out_dim, images=False), nn.SiLU(),
CausalConv3d(out_dim, output_channels, 3, padding=1))
def run_up(self, layer_idx, x_ref, feat_cache, feat_idx, out_chunks):
x = x_ref[0]
x_ref[0] = None
if layer_idx >= len(self.upsamples):
for layer in self.head:
if isinstance(layer, CausalConv3d) and feat_cache is not None:
cache_x = x[:, :, -CACHE_T:, :, :]
x = layer(x, feat_cache[feat_idx[0]])
feat_cache[feat_idx[0]] = cache_x
feat_idx[0] += 1
else:
x = layer(x)
out_chunks.append(x)
return
layer = self.upsamples[layer_idx]
if feat_cache is not None:
x = layer(x, feat_cache, feat_idx)
else:
x = layer(x)
if isinstance(layer, Resample) and layer.mode == 'upsample3d' and x.shape[2] > 2:
for frame_idx in range(0, x.shape[2], 2):
self.run_up(
layer_idx + 1,
[x[:, :, frame_idx:frame_idx + 2, :, :]],
feat_cache,
feat_idx.copy(),
out_chunks,
)
del x
return
next_x_ref = [x]
del x
self.run_up(layer_idx + 1, next_x_ref, feat_cache, feat_idx, out_chunks)
def forward(self, x, feat_cache=None, feat_idx=[0]):
## conv1
if feat_cache is not None:
@ -380,42 +417,7 @@ class Decoder3d(nn.Module):
out_chunks = []
def run_up(layer_idx, x_ref, feat_idx):
x = x_ref[0]
x_ref[0] = None
if layer_idx >= len(self.upsamples):
for layer in self.head:
if isinstance(layer, CausalConv3d) and feat_cache is not None:
cache_x = x[:, :, -CACHE_T:, :, :]
x = layer(x, feat_cache[feat_idx[0]])
feat_cache[feat_idx[0]] = cache_x
feat_idx[0] += 1
else:
x = layer(x)
out_chunks.append(x)
return
layer = self.upsamples[layer_idx]
if isinstance(layer, Resample) and layer.mode == 'upsample3d' and x.shape[2] > 1:
for frame_idx in range(x.shape[2]):
run_up(
layer_idx,
[x[:, :, frame_idx:frame_idx + 1, :, :]],
feat_idx.copy(),
)
del x
return
if feat_cache is not None:
x = layer(x, feat_cache, feat_idx)
else:
x = layer(x)
next_x_ref = [x]
del x
run_up(layer_idx + 1, next_x_ref, feat_idx)
run_up(0, [x], feat_idx)
self.run_up(0, [x], feat_cache, feat_idx, out_chunks)
return out_chunks

5
comfy/memory_management.py
View File

@ -39,7 +39,10 @@ def read_tensor_file_slice_into(tensor, destination):
if (destination.device.type != "cpu"
or file_obj is None
or threading.get_ident() != info.thread_id
or destination.numel() * destination.element_size() < info.size):
or destination.numel() * destination.element_size() < info.size
or tensor.numel() * tensor.element_size() != info.size
or tensor.storage_offset() != 0
or not tensor.is_contiguous()):
return False
if info.size == 0:

38
comfy/model_base.py
View File

@ -21,6 +21,7 @@ import comfy.ldm.hunyuan3dv2_1.hunyuandit
import torch
import logging
import comfy.ldm.lightricks.av_model
import comfy.context_windows
from comfy.ldm.modules.diffusionmodules.openaimodel import UNetModel, Timestep
from comfy.ldm.cascade.stage_c import StageC
from comfy.ldm.cascade.stage_b import StageB
@ -285,6 +286,12 @@ class BaseModel(torch.nn.Module):
return data
return None
def resize_cond_for_context_window(self, cond_key, cond_value, window, x_in, device, retain_index_list=[]):
"""Override in subclasses to handle model-specific cond slicing for context windows.
Return a sliced cond object, or None to fall through to default handling.
Use comfy.context_windows.slice_cond() for common cases."""
return None
def extra_conds(self, **kwargs):
out = {}
concat_cond = self.concat_cond(**kwargs)
@ -930,9 +937,10 @@ class LongCatImage(Flux):
transformer_options = transformer_options.copy()
rope_opts = transformer_options.get("rope_options", {})
rope_opts = dict(rope_opts)
pe_len = float(c_crossattn.shape[1]) if c_crossattn is not None else 512.0
rope_opts.setdefault("shift_t", 1.0)
rope_opts.setdefault("shift_y", 512.0)
rope_opts.setdefault("shift_x", 512.0)
rope_opts.setdefault("shift_y", pe_len)
rope_opts.setdefault("shift_x", pe_len)
transformer_options["rope_options"] = rope_opts
return super()._apply_model(x, t, c_concat, c_crossattn, control, transformer_options, **kwargs)
@ -1053,6 +1061,10 @@ class LTXAV(BaseModel):
if guide_attention_entries is not None:
out['guide_attention_entries'] = comfy.conds.CONDConstant(guide_attention_entries)
ref_audio = kwargs.get("ref_audio", None)
if ref_audio is not None:
out['ref_audio'] = comfy.conds.CONDConstant(ref_audio)
return out
def process_timestep(self, timestep, x, denoise_mask=None, audio_denoise_mask=None, **kwargs):
@ -1375,6 +1387,11 @@ class WAN21_Vace(WAN21):
out['vace_strength'] = comfy.conds.CONDConstant(vace_strength)
return out
def resize_cond_for_context_window(self, cond_key, cond_value, window, x_in, device, retain_index_list=[]):
if cond_key == "vace_context":
return comfy.context_windows.slice_cond(cond_value, window, x_in, device, temporal_dim=3, retain_index_list=retain_index_list)
return super().resize_cond_for_context_window(cond_key, cond_value, window, x_in, device, retain_index_list=retain_index_list)
class WAN21_Camera(WAN21):
def __init__(self, model_config, model_type=ModelType.FLOW, image_to_video=False, device=None):
super(WAN21, self).__init__(model_config, model_type, device=device, unet_model=comfy.ldm.wan.model.CameraWanModel)
@ -1427,6 +1444,11 @@ class WAN21_HuMo(WAN21):
return out
def resize_cond_for_context_window(self, cond_key, cond_value, window, x_in, device, retain_index_list=[]):
if cond_key == "audio_embed":
return comfy.context_windows.slice_cond(cond_value, window, x_in, device, temporal_dim=1)
return super().resize_cond_for_context_window(cond_key, cond_value, window, x_in, device, retain_index_list=retain_index_list)
class WAN22_Animate(WAN21):
def __init__(self, model_config, model_type=ModelType.FLOW, image_to_video=False, device=None):
super(WAN21, self).__init__(model_config, model_type, device=device, unet_model=comfy.ldm.wan.model_animate.AnimateWanModel)
@ -1444,6 +1466,13 @@ class WAN22_Animate(WAN21):
out['pose_latents'] = comfy.conds.CONDRegular(self.process_latent_in(pose_latents))
return out
def resize_cond_for_context_window(self, cond_key, cond_value, window, x_in, device, retain_index_list=[]):
if cond_key == "face_pixel_values":
return comfy.context_windows.slice_cond(cond_value, window, x_in, device, temporal_dim=2, temporal_scale=4, temporal_offset=1)
if cond_key == "pose_latents":
return comfy.context_windows.slice_cond(cond_value, window, x_in, device, temporal_dim=2, temporal_offset=1)
return super().resize_cond_for_context_window(cond_key, cond_value, window, x_in, device, retain_index_list=retain_index_list)
class WAN22_S2V(WAN21):
def __init__(self, model_config, model_type=ModelType.FLOW, device=None):
super(WAN21, self).__init__(model_config, model_type, device=device, unet_model=comfy.ldm.wan.model.WanModel_S2V)
@ -1480,6 +1509,11 @@ class WAN22_S2V(WAN21):
out['reference_motion'] = reference_motion.shape
return out
def resize_cond_for_context_window(self, cond_key, cond_value, window, x_in, device, retain_index_list=[]):
if cond_key == "audio_embed":
return comfy.context_windows.slice_cond(cond_value, window, x_in, device, temporal_dim=1)
return super().resize_cond_for_context_window(cond_key, cond_value, window, x_in, device, retain_index_list=retain_index_list)
class WAN22(WAN21):
def __init__(self, model_config, model_type=ModelType.FLOW, image_to_video=False, device=None):
super(WAN21, self).__init__(model_config, model_type, device=device, unet_model=comfy.ldm.wan.model.WanModel)

2
comfy/model_management.py
View File

@ -1003,7 +1003,7 @@ def text_encoder_offload_device():
def text_encoder_device():
if args.gpu_only:
return get_torch_device()
elif vram_state in (VRAMState.HIGH_VRAM, VRAMState.NORMAL_VRAM, VRAMState.SHARED) or comfy.memory_management.aimdo_enabled:
elif vram_state in (VRAMState.HIGH_VRAM, VRAMState.NORMAL_VRAM) or comfy.memory_management.aimdo_enabled:
if should_use_fp16(prioritize_performance=False):
return get_torch_device()
else:

8
comfy/sample.py
View File

@ -8,12 +8,12 @@ import comfy.nested_tensor
def prepare_noise_inner(latent_image, generator, noise_inds=None):
if noise_inds is None:
return torch.randn(latent_image.size(), dtype=latent_image.dtype, layout=latent_image.layout, generator=generator, device="cpu")
return torch.randn(latent_image.size(), dtype=torch.float32, layout=latent_image.layout, generator=generator, device="cpu").to(dtype=latent_image.dtype)
unique_inds, inverse = np.unique(noise_inds, return_inverse=True)
noises = []
for i in range(unique_inds[-1]+1):
noise = torch.randn([1] + list(latent_image.size())[1:], dtype=latent_image.dtype, layout=latent_image.layout, generator=generator, device="cpu")
noise = torch.randn([1] + list(latent_image.size())[1:], dtype=torch.float32, layout=latent_image.layout, generator=generator, device="cpu").to(dtype=latent_image.dtype)
if i in unique_inds:
noises.append(noise)
noises = [noises[i] for i in inverse]
@ -64,10 +64,10 @@ def sample(model, noise, steps, cfg, sampler_name, scheduler, positive, negative
sampler = comfy.samplers.KSampler(model, steps=steps, device=model.load_device, sampler=sampler_name, scheduler=scheduler, denoise=denoise, model_options=model.model_options)
samples = sampler.sample(noise, positive, negative, cfg=cfg, latent_image=latent_image, start_step=start_step, last_step=last_step, force_full_denoise=force_full_denoise, denoise_mask=noise_mask, sigmas=sigmas, callback=callback, disable_pbar=disable_pbar, seed=seed)
samples = samples.to(comfy.model_management.intermediate_device())
samples = samples.to(device=comfy.model_management.intermediate_device(), dtype=comfy.model_management.intermediate_dtype())
return samples
def sample_custom(model, noise, cfg, sampler, sigmas, positive, negative, latent_image, noise_mask=None, callback=None, disable_pbar=False, seed=None):
samples = comfy.samplers.sample(model, noise, positive, negative, cfg, model.load_device, sampler, sigmas, model_options=model.model_options, latent_image=latent_image, denoise_mask=noise_mask, callback=callback, disable_pbar=disable_pbar, seed=seed)
samples = samples.to(comfy.model_management.intermediate_device())
samples = samples.to(device=comfy.model_management.intermediate_device(), dtype=comfy.model_management.intermediate_dtype())
return samples

5
comfy/samplers.py
View File

@ -985,8 +985,8 @@ class CFGGuider:
self.inner_model, self.conds, self.loaded_models = comfy.sampler_helpers.prepare_sampling(self.model_patcher, noise.shape, self.conds, self.model_options)
device = self.model_patcher.load_device
noise = noise.to(device)
latent_image = latent_image.to(device)
noise = noise.to(device=device, dtype=torch.float32)
latent_image = latent_image.to(device=device, dtype=torch.float32)
sigmas = sigmas.to(device)
cast_to_load_options(self.model_options, device=device, dtype=self.model_patcher.model_dtype())
@ -1028,6 +1028,7 @@ class CFGGuider:
denoise_mask, _ = comfy.utils.pack_latents(denoise_masks)
else:
denoise_mask = denoise_masks[0]
denoise_mask = denoise_mask.float()
self.conds = {}
for k in self.original_conds:

30
comfy/sd.py
View File

@ -951,12 +951,23 @@ class VAE:
batch_number = int(free_memory / memory_used)
batch_number = max(1, batch_number)
# Pre-allocate output for VAEs that support direct buffer writes
preallocated = False
if getattr(self.first_stage_model, 'comfy_has_chunked_io', False):
pixel_samples = torch.empty(self.first_stage_model.decode_output_shape(samples_in.shape), device=self.output_device, dtype=self.vae_output_dtype())
preallocated = True
for x in range(0, samples_in.shape[0], batch_number):
samples = samples_in[x:x + batch_number].to(device=self.device, dtype=self.vae_dtype)
out = self.process_output(self.first_stage_model.decode(samples, **vae_options).to(device=self.output_device, dtype=self.vae_output_dtype(), copy=True))
if pixel_samples is None:
pixel_samples = torch.empty((samples_in.shape[0],) + tuple(out.shape[1:]), device=self.output_device, dtype=self.vae_output_dtype())
pixel_samples[x:x+batch_number] = out
if preallocated:
self.first_stage_model.decode(samples, output_buffer=pixel_samples[x:x+batch_number], **vae_options)
else:
out = self.first_stage_model.decode(samples, **vae_options).to(device=self.output_device, dtype=self.vae_output_dtype(), copy=True)
if pixel_samples is None:
pixel_samples = torch.empty((samples_in.shape[0],) + tuple(out.shape[1:]), device=self.output_device, dtype=self.vae_output_dtype())
pixel_samples[x:x+batch_number].copy_(out)
del out
self.process_output(pixel_samples[x:x+batch_number])
except Exception as e:
model_management.raise_non_oom(e)
logging.warning("Warning: Ran out of memory when regular VAE decoding, retrying with tiled VAE decoding.")
@ -967,6 +978,7 @@ class VAE:
do_tile = True
if do_tile:
comfy.model_management.soft_empty_cache()
dims = samples_in.ndim - 2
if dims == 1 or self.extra_1d_channel is not None:
pixel_samples = self.decode_tiled_1d(samples_in)
@ -1027,8 +1039,13 @@ class VAE:
batch_number = max(1, batch_number)
samples = None
for x in range(0, pixel_samples.shape[0], batch_number):
pixels_in = self.process_input(pixel_samples[x:x + batch_number]).to(self.vae_dtype).to(self.device)
out = self.first_stage_model.encode(pixels_in).to(self.output_device).to(dtype=self.vae_output_dtype())
pixels_in = self.process_input(pixel_samples[x:x + batch_number]).to(self.vae_dtype)
if getattr(self.first_stage_model, 'comfy_has_chunked_io', False):
out = self.first_stage_model.encode(pixels_in, device=self.device)
else:
pixels_in = pixels_in.to(self.device)
out = self.first_stage_model.encode(pixels_in)
out = out.to(self.output_device).to(dtype=self.vae_output_dtype())
if samples is None:
samples = torch.empty((pixel_samples.shape[0],) + tuple(out.shape[1:]), device=self.output_device, dtype=self.vae_output_dtype())
samples[x:x + batch_number] = out
@ -1043,6 +1060,7 @@ class VAE:
do_tile = True
if do_tile:
comfy.model_management.soft_empty_cache()
if self.latent_dim == 3:
tile = 256
overlap = tile // 4

8
comfy/sd1_clip.py
View File

@ -46,7 +46,7 @@ class ClipTokenWeightEncoder:
out, pooled = o[:2]
if pooled is not None:
first_pooled = pooled[0:1].to(model_management.intermediate_device())
first_pooled = pooled[0:1].to(device=model_management.intermediate_device())
else:
first_pooled = pooled
@ -63,16 +63,16 @@ class ClipTokenWeightEncoder:
output.append(z)
if (len(output) == 0):
r = (out[-1:].to(model_management.intermediate_device()), first_pooled)
r = (out[-1:].to(device=model_management.intermediate_device()), first_pooled)
else:
r = (torch.cat(output, dim=-2).to(model_management.intermediate_device()), first_pooled)
r = (torch.cat(output, dim=-2).to(device=model_management.intermediate_device()), first_pooled)
if len(o) > 2:
extra = {}
for k in o[2]:
v = o[2][k]
if k == "attention_mask":
v = v[:sections].flatten().unsqueeze(dim=0).to(model_management.intermediate_device())
v = v[:sections].flatten().unsqueeze(dim=0).to(device=model_management.intermediate_device())
extra[k] = v
r = r + (extra,)

11
comfy/text_encoders/llama.py
View File

@ -1028,12 +1028,19 @@ class Qwen25_7BVLI(BaseLlama, BaseGenerate, torch.nn.Module):
grid = e.get("extra", None)
start = e.get("index")
if position_ids is None:
position_ids = torch.zeros((3, embeds.shape[1]), device=embeds.device)
position_ids = torch.ones((3, embeds.shape[1]), device=embeds.device, dtype=torch.long)
position_ids[:, :start] = torch.arange(0, start, device=embeds.device)
end = e.get("size") + start
len_max = int(grid.max()) // 2
start_next = len_max + start
position_ids[:, end:] = torch.arange(start_next + offset, start_next + (embeds.shape[1] - end) + offset, device=embeds.device)
if attention_mask is not None:
# Assign compact sequential positions to attended tokens only,
# skipping over padding so post-padding tokens aren't inflated.
after_mask = attention_mask[0, end:]
text_positions = after_mask.cumsum(0) - 1 + start_next + offset
position_ids[:, end:] = torch.where(after_mask.bool(), text_positions, position_ids[0, end:])
else:
position_ids[:, end:] = torch.arange(start_next + offset, start_next + (embeds.shape[1] - end) + offset, device=embeds.device)
position_ids[0, start:end] = start + offset
max_d = int(grid[0][1]) // 2
position_ids[1, start:end] = torch.arange(start + offset, start + max_d + offset, device=embeds.device).unsqueeze(1).repeat(1, math.ceil((end - start) / max_d)).flatten(0)[:end - start]

25
comfy/text_encoders/longcat_image.py
View File

@ -64,7 +64,13 @@ class LongCatImageBaseTokenizer(Qwen25_7BVLITokenizer):
return [output]
IMAGE_PAD_TOKEN_ID = 151655
class LongCatImageTokenizer(sd1_clip.SD1Tokenizer):
T2I_PREFIX = "<|im_start|>system\nAs an image captioning expert, generate a descriptive text prompt based on an image content, suitable for input to a text-to-image model.<|im_end|>\n<|im_start|>user\n"
EDIT_PREFIX = "<|im_start|>system\nAs an image editing expert, first analyze the content and attributes of the input image(s). Then, based on the user's editing instructions, clearly and precisely determine how to modify the given image(s), ensuring that only the specified parts are altered and all other aspects remain consistent with the original(s).<|im_end|>\n<|im_start|>user\n<|vision_start|><|image_pad|><|vision_end|>"
SUFFIX = "<|im_end|>\n<|im_start|>assistant\n"
def __init__(self, embedding_directory=None, tokenizer_data={}):
super().__init__(
embedding_directory=embedding_directory,
@ -72,10 +78,8 @@ class LongCatImageTokenizer(sd1_clip.SD1Tokenizer):
name="qwen25_7b",
tokenizer=LongCatImageBaseTokenizer,
)
self.longcat_template_prefix = "<|im_start|>system\nAs an image captioning expert, generate a descriptive text prompt based on an image content, suitable for input to a text-to-image model.<|im_end|>\n<|im_start|>user\n"
self.longcat_template_suffix = "<|im_end|>\n<|im_start|>assistant\n"
def tokenize_with_weights(self, text, return_word_ids=False, **kwargs):
def tokenize_with_weights(self, text, return_word_ids=False, images=None, **kwargs):
skip_template = False
if text.startswith("<|im_start|>"):
skip_template = True
@ -90,11 +94,14 @@ class LongCatImageTokenizer(sd1_clip.SD1Tokenizer):
text, return_word_ids=return_word_ids, disable_weights=True, **kwargs
)
else:
has_images = images is not None and len(images) > 0
template_prefix = self.EDIT_PREFIX if has_images else self.T2I_PREFIX
prefix_ids = base_tok.tokenizer(
self.longcat_template_prefix, add_special_tokens=False
template_prefix, add_special_tokens=False
)["input_ids"]
suffix_ids = base_tok.tokenizer(
self.longcat_template_suffix, add_special_tokens=False
self.SUFFIX, add_special_tokens=False
)["input_ids"]
prompt_tokens = base_tok.tokenize_with_weights(
@ -106,6 +113,14 @@ class LongCatImageTokenizer(sd1_clip.SD1Tokenizer):
suffix_pairs = [(t, 1.0) for t in suffix_ids]
combined = prefix_pairs + prompt_pairs + suffix_pairs
if has_images:
embed_count = 0
for i in range(len(combined)):
if combined[i][0] == IMAGE_PAD_TOKEN_ID and embed_count < len(images):
combined[i] = ({"type": "image", "data": images[embed_count], "original_type": "image"}, combined[i][1])
embed_count += 1
tokens = {"qwen25_7b": [combined]}
return tokens

3
comfy/text_encoders/qwen_vl.py
View File

@ -425,4 +425,7 @@ class Qwen2VLVisionTransformer(nn.Module):
hidden_states = block(hidden_states, position_embeddings, cu_seqlens_now, optimized_attention=optimized_attention)
hidden_states = self.merger(hidden_states)
# Potentially important for spatially precise edits. This is present in the HF implementation.
reverse_indices = torch.argsort(window_index)
hidden_states = hidden_states[reverse_indices, :]
return hidden_states

8
comfy/utils.py
View File

@ -1135,8 +1135,8 @@ def tiled_scale_multidim(samples, function, tile=(64, 64), overlap=8, upscale_am
pbar.update(1)
continue
out = torch.zeros([s.shape[0], out_channels] + mult_list_upscale(s.shape[2:]), device=output_device)
out_div = torch.zeros([s.shape[0], out_channels] + mult_list_upscale(s.shape[2:]), device=output_device)
out = output[b:b+1].zero_()
out_div = torch.zeros([s.shape[0], 1] + mult_list_upscale(s.shape[2:]), device=output_device)
positions = [range(0, s.shape[d+2] - overlap[d], tile[d] - overlap[d]) if s.shape[d+2] > tile[d] else [0] for d in range(dims)]
@ -1151,7 +1151,7 @@ def tiled_scale_multidim(samples, function, tile=(64, 64), overlap=8, upscale_am
upscaled.append(round(get_pos(d, pos)))
ps = function(s_in).to(output_device)
mask = torch.ones_like(ps)
mask = torch.ones([1, 1] + list(ps.shape[2:]), device=output_device)
for d in range(2, dims + 2):
feather = round(get_scale(d - 2, overlap[d - 2]))
@ -1174,7 +1174,7 @@ def tiled_scale_multidim(samples, function, tile=(64, 64), overlap=8, upscale_am
if pbar is not None:
pbar.update(1)
output[b:b+1] = out/out_div
out.div_(out_div)
return output
def tiled_scale(samples, function, tile_x=64, tile_y=64, overlap = 8, upscale_amount = 4, out_channels = 3, output_device="cpu", pbar = None):

1
comfy_api_nodes/apis/gemini.py
View File

@ -67,6 +67,7 @@ class GeminiPart(BaseModel):
inlineData: GeminiInlineData | None = Field(None)
fileData: GeminiFileData | None = Field(None)
text: str | None = Field(None)
thought: bool | None = Field(None)
class GeminiTextPart(BaseModel):

43
comfy_api_nodes/apis/quiver.py Normal file
View File

@ -0,0 +1,43 @@
from pydantic import BaseModel, Field
class QuiverImageObject(BaseModel):
url: str = Field(...)
class QuiverTextToSVGRequest(BaseModel):
model: str = Field(default="arrow-preview")
prompt: str = Field(...)
instructions: str | None = Field(default=None)
references: list[QuiverImageObject] | None = Field(default=None, max_length=4)
temperature: float | None = Field(default=None, ge=0, le=2)
top_p: float | None = Field(default=None, ge=0, le=1)
presence_penalty: float | None = Field(default=None, ge=-2, le=2)
class QuiverImageToSVGRequest(BaseModel):
model: str = Field(default="arrow-preview")
image: QuiverImageObject = Field(...)
auto_crop: bool | None = Field(default=None)
target_size: int | None = Field(default=None, ge=128, le=4096)
temperature: float | None = Field(default=None, ge=0, le=2)
top_p: float | None = Field(default=None, ge=0, le=1)
presence_penalty: float | None = Field(default=None, ge=-2, le=2)
class QuiverSVGResponseItem(BaseModel):
svg: str = Field(...)
mime_type: str | None = Field(default="image/svg+xml")
class QuiverSVGUsage(BaseModel):
total_tokens: int | None = Field(default=None)
input_tokens: int | None = Field(default=None)
output_tokens: int | None = Field(default=None)
class QuiverSVGResponse(BaseModel):
id: str | None = Field(default=None)
created: int | None = Field(default=None)
data: list[QuiverSVGResponseItem] = Field(...)
usage: QuiverSVGUsage | None = Field(default=None)

13
comfy_api_nodes/nodes_bytedance.py
View File

@ -47,6 +47,10 @@ SEEDREAM_MODELS = {
BYTEPLUS_TASK_ENDPOINT = "/proxy/byteplus/api/v3/contents/generations/tasks"
BYTEPLUS_TASK_STATUS_ENDPOINT = "/proxy/byteplus/api/v3/contents/generations/tasks" # + /{task_id}
DEPRECATED_MODELS = {"seedance-1-0-lite-t2v-250428", "seedance-1-0-lite-i2v-250428"}
logger = logging.getLogger(__name__)
def get_image_url_from_response(response: ImageTaskCreationResponse) -> str:
if response.error:
@ -135,6 +139,7 @@ class ByteDanceImageNode(IO.ComfyNode):
price_badge=IO.PriceBadge(
expr="""{"type":"usd","usd":0.03}""",
),
is_deprecated=True,
)
@classmethod
@ -942,7 +947,7 @@ class ByteDanceImageReferenceNode(IO.ComfyNode):
]
return await process_video_task(
cls,
payload=Image2VideoTaskCreationRequest(model=model, content=x),
payload=Image2VideoTaskCreationRequest(model=model, content=x, generate_audio=None),
estimated_duration=max(1, math.ceil(VIDEO_TASKS_EXECUTION_TIME[model][resolution] * (duration / 10.0))),
)
@ -952,6 +957,12 @@ async def process_video_task(
payload: Text2VideoTaskCreationRequest | Image2VideoTaskCreationRequest,
estimated_duration: int | None,
) -> IO.NodeOutput:
if payload.model in DEPRECATED_MODELS:
logger.warning(
"Model '%s' is deprecated and will be deactivated on May 13, 2026. "
"Please switch to a newer model. Recommended: seedance-1-0-pro-fast-251015.",
payload.model,
)
initial_response = await sync_op(
cls,
ApiEndpoint(path=BYTEPLUS_TASK_ENDPOINT, method="POST"),

17
comfy_api_nodes/nodes_gemini.py
View File

@ -63,7 +63,7 @@ GEMINI_IMAGE_2_PRICE_BADGE = IO.PriceBadge(
$m := widgets.model;
$r := widgets.resolution;
$isFlash := $contains($m, "nano banana 2");
$flashPrices := {"1k": 0.0696, "2k": 0.0696, "4k": 0.123};
$flashPrices := {"1k": 0.0696, "2k": 0.1014, "4k": 0.154};
$proPrices := {"1k": 0.134, "2k": 0.134, "4k": 0.24};
$prices := $isFlash ? $flashPrices : $proPrices;
{"type":"usd","usd": $lookup($prices, $r), "format":{"suffix":"/Image","approximate":true}}
@ -188,10 +188,12 @@ def get_text_from_response(response: GeminiGenerateContentResponse) -> str:
return "\n".join([part.text for part in parts])
async def get_image_from_response(response: GeminiGenerateContentResponse) -> Input.Image:
async def get_image_from_response(response: GeminiGenerateContentResponse, thought: bool = False) -> Input.Image:
image_tensors: list[Input.Image] = []
parts = get_parts_by_type(response, "image/*")
for part in parts:
if (part.thought is True) != thought:
continue
if part.inlineData:
image_data = base64.b64decode(part.inlineData.data)
returned_image = bytesio_to_image_tensor(BytesIO(image_data))
@ -931,6 +933,11 @@ class GeminiNanoBanana2(IO.ComfyNode):
outputs=[
IO.Image.Output(),
IO.String.Output(),
IO.Image.Output(
display_name="thought_image",
tooltip="First image from the model's thinking process. "
"Only available with thinking_level HIGH and IMAGE+TEXT modality.",
),
],
hidden=[
IO.Hidden.auth_token_comfy_org,
@ -992,7 +999,11 @@ class GeminiNanoBanana2(IO.ComfyNode):
response_model=GeminiGenerateContentResponse,
price_extractor=calculate_tokens_price,
)
return IO.NodeOutput(await get_image_from_response(response), get_text_from_response(response))
return IO.NodeOutput(
await get_image_from_response(response),
get_text_from_response(response),
await get_image_from_response(response, thought=True),
)
class GeminiExtension(ComfyExtension):

291
comfy_api_nodes/nodes_quiver.py Normal file
View File

@ -0,0 +1,291 @@
from io import BytesIO
from typing_extensions import override
from comfy_api.latest import IO, ComfyExtension
from comfy_api_nodes.apis.quiver import (
QuiverImageObject,
QuiverImageToSVGRequest,
QuiverSVGResponse,
QuiverTextToSVGRequest,
)
from comfy_api_nodes.util import (
ApiEndpoint,
sync_op,
upload_image_to_comfyapi,
validate_string,
)
from comfy_extras.nodes_images import SVG
class QuiverTextToSVGNode(IO.ComfyNode):
@classmethod
def define_schema(cls):
return IO.Schema(
node_id="QuiverTextToSVGNode",
display_name="Quiver Text to SVG",
category="api node/image/Quiver",
description="Generate an SVG from a text prompt using Quiver AI.",
inputs=[
IO.String.Input(
"prompt",
multiline=True,
default="",
tooltip="Text description of the desired SVG output.",
),
IO.String.Input(
"instructions",
multiline=True,
default="",
tooltip="Additional style or formatting guidance.",
optional=True,
),
IO.Autogrow.Input(
"reference_images",
template=IO.Autogrow.TemplatePrefix(
IO.Image.Input("image"),
prefix="ref_",
min=0,
max=4,
),
tooltip="Up to 4 reference images to guide the generation.",
optional=True,
),
IO.DynamicCombo.Input(
"model",
options=[
IO.DynamicCombo.Option(
"arrow-preview",
[
IO.Float.Input(
"temperature",
default=1.0,
min=0.0,
max=2.0,
step=0.1,
display_mode=IO.NumberDisplay.slider,
tooltip="Randomness control. Higher values increase randomness.",
advanced=True,
),
IO.Float.Input(
"top_p",
default=1.0,
min=0.05,
max=1.0,
step=0.05,
display_mode=IO.NumberDisplay.slider,
tooltip="Nucleus sampling parameter.",
advanced=True,
),
IO.Float.Input(
"presence_penalty",
default=0.0,
min=-2.0,
max=2.0,
step=0.1,
display_mode=IO.NumberDisplay.slider,
tooltip="Token presence penalty.",
advanced=True,
),
],
),
],
tooltip="Model to use for SVG generation.",
),
IO.Int.Input(
"seed",
default=0,
min=0,
max=2147483647,
control_after_generate=True,
tooltip="Seed to determine if node should re-run; "
"actual results are nondeterministic regardless of seed.",
),
],
outputs=[
IO.SVG.Output(),
],
hidden=[
IO.Hidden.auth_token_comfy_org,
IO.Hidden.api_key_comfy_org,
IO.Hidden.unique_id,
],
is_api_node=True,
price_badge=IO.PriceBadge(
expr="""{"type":"usd","usd":0.429}""",
),
)
@classmethod
async def execute(
cls,
prompt: str,
model: dict,
seed: int,
instructions: str = None,
reference_images: IO.Autogrow.Type = None,
) -> IO.NodeOutput:
validate_string(prompt, strip_whitespace=False, min_length=1)
references = None
if reference_images:
references = []
for key in reference_images:
url = await upload_image_to_comfyapi(cls, reference_images[key])
references.append(QuiverImageObject(url=url))
if len(references) > 4:
raise ValueError("Maximum 4 reference images are allowed.")
instructions_val = instructions.strip() if instructions else None
if instructions_val == "":
instructions_val = None
response = await sync_op(
cls,
ApiEndpoint(path="/proxy/quiver/v1/svgs/generations", method="POST"),
response_model=QuiverSVGResponse,
data=QuiverTextToSVGRequest(
model=model["model"],
prompt=prompt,
instructions=instructions_val,
references=references,
temperature=model.get("temperature"),
top_p=model.get("top_p"),
presence_penalty=model.get("presence_penalty"),
),
)
svg_data = [BytesIO(item.svg.encode("utf-8")) for item in response.data]
return IO.NodeOutput(SVG(svg_data))
class QuiverImageToSVGNode(IO.ComfyNode):
@classmethod
def define_schema(cls):
return IO.Schema(
node_id="QuiverImageToSVGNode",
display_name="Quiver Image to SVG",
category="api node/image/Quiver",
description="Vectorize a raster image into SVG using Quiver AI.",
inputs=[
IO.Image.Input(
"image",
tooltip="Input image to vectorize.",
),
IO.Boolean.Input(
"auto_crop",
default=False,
tooltip="Automatically crop to the dominant subject.",
),
IO.DynamicCombo.Input(
"model",
options=[
IO.DynamicCombo.Option(
"arrow-preview",
[
IO.Int.Input(
"target_size",
default=1024,
min=128,
max=4096,
tooltip="Square resize target in pixels.",
),
IO.Float.Input(
"temperature",
default=1.0,
min=0.0,
max=2.0,
step=0.1,
display_mode=IO.NumberDisplay.slider,
tooltip="Randomness control. Higher values increase randomness.",
advanced=True,
),
IO.Float.Input(
"top_p",
default=1.0,
min=0.05,
max=1.0,
step=0.05,
display_mode=IO.NumberDisplay.slider,
tooltip="Nucleus sampling parameter.",
advanced=True,
),
IO.Float.Input(
"presence_penalty",
default=0.0,
min=-2.0,
max=2.0,
step=0.1,
display_mode=IO.NumberDisplay.slider,
tooltip="Token presence penalty.",
advanced=True,
),
],
),
],
tooltip="Model to use for SVG vectorization.",
),
IO.Int.Input(
"seed",
default=0,
min=0,
max=2147483647,
control_after_generate=True,
tooltip="Seed to determine if node should re-run; "
"actual results are nondeterministic regardless of seed.",
),
],
outputs=[
IO.SVG.Output(),
],
hidden=[
IO.Hidden.auth_token_comfy_org,
IO.Hidden.api_key_comfy_org,
IO.Hidden.unique_id,
],
is_api_node=True,
price_badge=IO.PriceBadge(
expr="""{"type":"usd","usd":0.429}""",
),
)
@classmethod
async def execute(
cls,
image,
auto_crop: bool,
model: dict,
seed: int,
) -> IO.NodeOutput:
image_url = await upload_image_to_comfyapi(cls, image)
response = await sync_op(
cls,
ApiEndpoint(path="/proxy/quiver/v1/svgs/vectorizations", method="POST"),
response_model=QuiverSVGResponse,
data=QuiverImageToSVGRequest(
model=model["model"],
image=QuiverImageObject(url=image_url),
auto_crop=auto_crop if auto_crop else None,
target_size=model.get("target_size"),
temperature=model.get("temperature"),
top_p=model.get("top_p"),
presence_penalty=model.get("presence_penalty"),
),
)
svg_data = [BytesIO(item.svg.encode("utf-8")) for item in response.data]
return IO.NodeOutput(SVG(svg_data))
class QuiverExtension(ComfyExtension):
@override
async def get_node_list(self) -> list[type[IO.ComfyNode]]:
return [
QuiverTextToSVGNode,
QuiverImageToSVGNode,
]
async def comfy_entrypoint() -> QuiverExtension:
return QuiverExtension()

5
comfy_extras/nodes_canny.py
View File

@ -3,6 +3,7 @@ from typing_extensions import override
import comfy.model_management
from comfy_api.latest import ComfyExtension, io
import torch
class Canny(io.ComfyNode):
@ -29,8 +30,8 @@ class Canny(io.ComfyNode):
@classmethod
def execute(cls, image, low_threshold, high_threshold) -> io.NodeOutput:
output = canny(image.to(comfy.model_management.get_torch_device()).movedim(-1, 1), low_threshold, high_threshold)
img_out = output[1].to(comfy.model_management.intermediate_device()).repeat(1, 3, 1, 1).movedim(1, -1)
output = canny(image.to(device=comfy.model_management.get_torch_device(), dtype=torch.float32).movedim(-1, 1), low_threshold, high_threshold)
img_out = output[1].to(device=comfy.model_management.intermediate_device(), dtype=comfy.model_management.intermediate_dtype()).repeat(1, 3, 1, 1).movedim(1, -1)
return io.NodeOutput(img_out)

4
comfy_extras/nodes_context_windows.py
View File

@ -27,8 +27,8 @@ class ContextWindowsManualNode(io.ComfyNode):
io.Combo.Input("fuse_method", options=comfy.context_windows.ContextFuseMethods.LIST_STATIC, default=comfy.context_windows.ContextFuseMethods.PYRAMID, tooltip="The method to use to fuse the context windows."),
io.Int.Input("dim", min=0, max=5, default=0, tooltip="The dimension to apply the context windows to."),
io.Boolean.Input("freenoise", default=False, tooltip="Whether to apply FreeNoise noise shuffling, improves window blending."),
#io.String.Input("cond_retain_index_list", default="", tooltip="List of latent indices to retain in the conditioning tensors for each window, for example setting this to '0' will use the initial start image for each window."),
#io.Boolean.Input("split_conds_to_windows", default=False, tooltip="Whether to split multiple conditionings (created by ConditionCombine) to each window based on region index."),
io.String.Input("cond_retain_index_list", default="", tooltip="List of latent indices to retain in the conditioning tensors for each window, for example setting this to '0' will use the initial start image for each window."),
io.Boolean.Input("split_conds_to_windows", default=False, tooltip="Whether to split multiple conditionings (created by ConditionCombine) to each window based on region index."),
],
outputs=[
io.Model.Output(tooltip="The model with context windows applied during sampling."),

80
comfy_extras/nodes_lt.py
View File

@ -3,6 +3,7 @@ import node_helpers
import torch
import comfy.model_management
import comfy.model_sampling
import comfy.samplers
import comfy.utils
import math
import numpy as np
@ -682,6 +683,84 @@ class LTXVSeparateAVLatent(io.ComfyNode):
return io.NodeOutput(video_latent, audio_latent)
class LTXVReferenceAudio(io.ComfyNode):
@classmethod
def define_schema(cls) -> io.Schema:
return io.Schema(
node_id="LTXVReferenceAudio",
display_name="LTXV Reference Audio (ID-LoRA)",
category="conditioning/audio",
description="Set reference audio for ID-LoRA speaker identity transfer. Encodes a reference audio clip into the conditioning and optionally patches the model with identity guidance (extra forward pass without reference, amplifying the speaker identity effect).",
inputs=[
io.Model.Input("model"),
io.Conditioning.Input("positive"),
io.Conditioning.Input("negative"),
io.Audio.Input("reference_audio", tooltip="Reference audio clip whose speaker identity to transfer. ~5 seconds recommended (training duration). Shorter or longer clips may degrade voice identity transfer."),
io.Vae.Input(id="audio_vae", display_name="Audio VAE", tooltip="LTXV Audio VAE for encoding."),
io.Float.Input("identity_guidance_scale", default=3.0, min=0.0, max=100.0, step=0.01, round=0.01, tooltip="Strength of identity guidance. Runs an extra forward pass without reference each step to amplify speaker identity. Set to 0 to disable (no extra pass)."),
io.Float.Input("start_percent", default=0.0, min=0.0, max=1.0, step=0.001, advanced=True, tooltip="Start of the sigma range where identity guidance is active."),
io.Float.Input("end_percent", default=1.0, min=0.0, max=1.0, step=0.001, advanced=True, tooltip="End of the sigma range where identity guidance is active."),
],
outputs=[
io.Model.Output(),
io.Conditioning.Output(display_name="positive"),
io.Conditioning.Output(display_name="negative"),
],
)
@classmethod
def execute(cls, model, positive, negative, reference_audio, audio_vae, identity_guidance_scale, start_percent, end_percent) -> io.NodeOutput:
# Encode reference audio to latents and patchify
audio_latents = audio_vae.encode(reference_audio)
b, c, t, f = audio_latents.shape
ref_tokens = audio_latents.permute(0, 2, 1, 3).reshape(b, t, c * f)
ref_audio = {"tokens": ref_tokens}
positive = node_helpers.conditioning_set_values(positive, {"ref_audio": ref_audio})
negative = node_helpers.conditioning_set_values(negative, {"ref_audio": ref_audio})
# Patch model with identity guidance
m = model.clone()
scale = identity_guidance_scale
model_sampling = m.get_model_object("model_sampling")
sigma_start = model_sampling.percent_to_sigma(start_percent)
sigma_end = model_sampling.percent_to_sigma(end_percent)
def post_cfg_function(args):
if scale == 0:
return args["denoised"]
sigma = args["sigma"]
sigma_ = sigma[0].item()
if sigma_ > sigma_start or sigma_ < sigma_end:
return args["denoised"]
cond_pred = args["cond_denoised"]
cond = args["cond"]
cfg_result = args["denoised"]
model_options = args["model_options"].copy()
x = args["input"]
# Strip ref_audio from conditioning for the no-reference pass
noref_cond = []
for entry in cond:
new_entry = entry.copy()
mc = new_entry.get("model_conds", {}).copy()
mc.pop("ref_audio", None)
new_entry["model_conds"] = mc
noref_cond.append(new_entry)
(pred_noref,) = comfy.samplers.calc_cond_batch(
args["model"], [noref_cond], x, sigma, model_options
)
return cfg_result + (cond_pred - pred_noref) * scale
m.set_model_sampler_post_cfg_function(post_cfg_function)
return io.NodeOutput(m, positive, negative)
class LtxvExtension(ComfyExtension):
@override
async def get_node_list(self) -> list[type[io.ComfyNode]]:
@ -697,6 +776,7 @@ class LtxvExtension(ComfyExtension):
LTXVCropGuides,
LTXVConcatAVLatent,
LTXVSeparateAVLatent,
LTXVReferenceAudio,
]

2
comfyui_version.py
View File

@ -1,3 +1,3 @@
# This file is automatically generated by the build process when version is
# updated in pyproject.toml.
__version__ = "0.17.0"
__version__ = "0.18.1"

3
main.py
View File

@ -471,6 +471,9 @@ if __name__ == "__main__":
if sys.version_info.major == 3 and sys.version_info.minor < 10:
logging.warning("WARNING: You are using a python version older than 3.10, please upgrade to a newer one. 3.12 and above is recommended.")
if args.disable_dynamic_vram:
logging.warning("Dynamic vram disabled with argument. If you have any issues with dynamic vram enabled please give us a detailed reports as this argument will be removed soon.")
event_loop, _, start_all_func = start_comfyui()
try:
x = start_all_func()

2
manager_requirements.txt
View File

@ -1 +1 @@
comfyui_manager==4.1b6
comfyui_manager==4.1b8

8
nodes.py
View File

@ -1966,9 +1966,11 @@ class EmptyImage:
CATEGORY = "image"
def generate(self, width, height, batch_size=1, color=0):
r = torch.full([batch_size, height, width, 1], ((color >> 16) & 0xFF) / 0xFF)
g = torch.full([batch_size, height, width, 1], ((color >> 8) & 0xFF) / 0xFF)
b = torch.full([batch_size, height, width, 1], ((color) & 0xFF) / 0xFF)
dtype = comfy.model_management.intermediate_dtype()
device = comfy.model_management.intermediate_device()
r = torch.full([batch_size, height, width, 1], ((color >> 16) & 0xFF) / 0xFF, device=device, dtype=dtype)
g = torch.full([batch_size, height, width, 1], ((color >> 8) & 0xFF) / 0xFF, device=device, dtype=dtype)
b = torch.full([batch_size, height, width, 1], ((color) & 0xFF) / 0xFF, device=device, dtype=dtype)
return (torch.cat((r, g, b), dim=-1), )
class ImagePadForOutpaint:

2
pyproject.toml
View File

@ -1,6 +1,6 @@
[project]
name = "ComfyUI"
version = "0.17.0"
version = "0.18.1"
readme = "README.md"
license = { file = "LICENSE" }
requires-python = ">=3.10"

2
requirements.txt
View File

@ -1,4 +1,4 @@
comfyui-frontend-package==1.41.20
comfyui-frontend-package==1.41.21
comfyui-workflow-templates==0.9.26
comfyui-embedded-docs==0.4.3
torch