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Merge branch 'worksplit-multigpu' of https://github.com/comfyanonymous/ComfyUI into worksplit-multigpu

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Jedrzej Kosinski 2025-06-24 00:48:58 -05:00
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8
.github/ISSUE_TEMPLATE/bug-report.yml vendored
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@ -15,6 +15,14 @@ body:
steps to replicate what went wrong and others will be able to repeat your steps and see the same issue happen.
If unsure, ask on the [ComfyUI Matrix Space](https://app.element.io/#/room/%23comfyui_space%3Amatrix.org) or the [Comfy Org Discord](https://discord.gg/comfyorg) first.
- type: checkboxes
id: custom-nodes-test
attributes:
label: Custom Node Testing
description: Please confirm you have tried to reproduce the issue with all custom nodes disabled.
options:
- label: I have tried disabling custom nodes and the issue persists (see [how to disable custom nodes](https://docs.comfy.org/troubleshooting/custom-node-issues#step-1%3A-test-with-all-custom-nodes-disabled) if you need help)
required: true
- type: textarea
attributes:
label: Expected Behavior

8
.github/ISSUE_TEMPLATE/user-support.yml vendored
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@ -11,6 +11,14 @@ body:
**2:** You have made an effort to find public answers to your question before asking here. In other words, you googled it first, and scrolled through recent help topics.
If unsure, ask on the [ComfyUI Matrix Space](https://app.element.io/#/room/%23comfyui_space%3Amatrix.org) or the [Comfy Org Discord](https://discord.gg/comfyorg) first.
- type: checkboxes
id: custom-nodes-test
attributes:
label: Custom Node Testing
description: Please confirm you have tried to reproduce the issue with all custom nodes disabled.
options:
- label: I have tried disabling custom nodes and the issue persists (see [how to disable custom nodes](https://docs.comfy.org/troubleshooting/custom-node-issues#step-1%3A-test-with-all-custom-nodes-disabled) if you need help)
required: true
- type: textarea
attributes:
label: Your question

26
CODEOWNERS
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@ -5,20 +5,20 @@
# Inlined the team members for now.
# Maintainers
*.md @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/tests/ @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/tests-unit/ @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/notebooks/ @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/script_examples/ @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/.github/ @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/requirements.txt @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/pyproject.toml @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
*.md @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/tests/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/tests-unit/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/notebooks/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/script_examples/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/.github/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/requirements.txt @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
/pyproject.toml @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne
# Python web server
/api_server/ @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @christian-byrne
/app/ @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @christian-byrne
/utils/ @yoland68 @robinjhuang @huchenlei @webfiltered @pythongosssss @ltdrdata @christian-byrne
/api_server/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @christian-byrne
/app/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @christian-byrne
/utils/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @christian-byrne
# Node developers
/comfy_extras/ @yoland68 @robinjhuang @huchenlei @pythongosssss @ltdrdata @Kosinkadink @webfiltered @christian-byrne
/comfy/comfy_types/ @yoland68 @robinjhuang @huchenlei @pythongosssss @ltdrdata @Kosinkadink @webfiltered @christian-byrne
/comfy_extras/ @yoland68 @robinjhuang @pythongosssss @ltdrdata @Kosinkadink @webfiltered @christian-byrne
/comfy/comfy_types/ @yoland68 @robinjhuang @pythongosssss @ltdrdata @Kosinkadink @webfiltered @christian-byrne

18
README.md
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@ -6,6 +6,7 @@
[![Website][website-shield]][website-url]
[![Dynamic JSON Badge][discord-shield]][discord-url]
[![Twitter][twitter-shield]][twitter-url]
[![Matrix][matrix-shield]][matrix-url]
<br>
[![][github-release-shield]][github-release-link]
@ -20,6 +21,8 @@
<!-- Workaround to display total user from https://github.com/badges/shields/issues/4500#issuecomment-2060079995 -->
[discord-shield]: https://img.shields.io/badge/dynamic/json?url=https%3A%2F%2Fdiscord.com%2Fapi%2Finvites%2Fcomfyorg%3Fwith_counts%3Dtrue&query=%24.approximate_member_count&logo=discord&logoColor=white&label=Discord&color=green&suffix=%20total
[discord-url]: https://www.comfy.org/discord
[twitter-shield]: https://img.shields.io/twitter/follow/ComfyUI
[twitter-url]: https://x.com/ComfyUI
[github-release-shield]: https://img.shields.io/github/v/release/comfyanonymous/ComfyUI?style=flat&sort=semver
[github-release-link]: https://github.com/comfyanonymous/ComfyUI/releases
@ -62,12 +65,13 @@ See what ComfyUI can do with the [example workflows](https://comfyanonymous.gith
- [Flux](https://comfyanonymous.github.io/ComfyUI_examples/flux/)
- [Lumina Image 2.0](https://comfyanonymous.github.io/ComfyUI_examples/lumina2/)
- [HiDream](https://comfyanonymous.github.io/ComfyUI_examples/hidream/)
- [Cosmos Predict2](https://comfyanonymous.github.io/ComfyUI_examples/cosmos_predict2/)
- Video Models
- [Stable Video Diffusion](https://comfyanonymous.github.io/ComfyUI_examples/video/)
- [Mochi](https://comfyanonymous.github.io/ComfyUI_examples/mochi/)
- [LTX-Video](https://comfyanonymous.github.io/ComfyUI_examples/ltxv/)
- [Hunyuan Video](https://comfyanonymous.github.io/ComfyUI_examples/hunyuan_video/)
- [Nvidia Cosmos](https://comfyanonymous.github.io/ComfyUI_examples/cosmos/)
- [Nvidia Cosmos](https://comfyanonymous.github.io/ComfyUI_examples/cosmos/) and [Cosmos Predict2](https://comfyanonymous.github.io/ComfyUI_examples/cosmos_predict2/)
- [Wan 2.1](https://comfyanonymous.github.io/ComfyUI_examples/wan/)
- Audio Models
- [Stable Audio](https://comfyanonymous.github.io/ComfyUI_examples/audio/)
@ -95,7 +99,8 @@ See what ComfyUI can do with the [example workflows](https://comfyanonymous.gith
- [LCM models and Loras](https://comfyanonymous.github.io/ComfyUI_examples/lcm/)
- Latent previews with [TAESD](#how-to-show-high-quality-previews)
- Starts up very fast.
- Works fully offline: will never download anything.
- Works fully offline: core will never download anything unless you want to.
- Optional API nodes to use paid models from external providers through the online [Comfy API](https://docs.comfy.org/tutorials/api-nodes/overview).
- [Config file](extra_model_paths.yaml.example) to set the search paths for models.
Workflow examples can be found on the [Examples page](https://comfyanonymous.github.io/ComfyUI_examples/)
@ -110,7 +115,6 @@ ComfyUI follows a weekly release cycle every Friday, with three interconnected r
2. **[ComfyUI Desktop](https://github.com/Comfy-Org/desktop)**
- Builds a new release using the latest stable core version
- Version numbers match the core release (e.g., Desktop v1.7.0 uses Core v1.7.0)
3. **[ComfyUI Frontend](https://github.com/Comfy-Org/ComfyUI_frontend)**
- Weekly frontend updates are merged into the core repository
@ -198,11 +202,11 @@ Put your VAE in: models/vae
### AMD GPUs (Linux only)
AMD users can install rocm and pytorch with pip if you don't have it already installed, this is the command to install the stable version:
```pip install torch torchvision torchaudio --index-url https://download.pytorch.org/whl/rocm6.2.4```
```pip install torch torchvision torchaudio --index-url https://download.pytorch.org/whl/rocm6.3```
This is the command to install the nightly with ROCm 6.3 which might have some performance improvements:
This is the command to install the nightly with ROCm 6.4 which might have some performance improvements:
```pip install --pre torch torchvision torchaudio --index-url https://download.pytorch.org/whl/nightly/rocm6.3```
```pip install --pre torch torchvision torchaudio --index-url https://download.pytorch.org/whl/nightly/rocm6.4```
### Intel GPUs (Windows and Linux)
@ -302,7 +306,7 @@ For AMD 7600 and maybe other RDNA3 cards: ```HSA_OVERRIDE_GFX_VERSION=11.0.0 pyt
### AMD ROCm Tips
You can enable experimental memory efficient attention on pytorch 2.5 in ComfyUI on RDNA3 and potentially other AMD GPUs using this command:
You can enable experimental memory efficient attention on recent pytorch in ComfyUI on some AMD GPUs using this command, it should already be enabled by default on RDNA3. If this improves speed for you on latest pytorch on your GPU please report it so that I can enable it by default.
```TORCH_ROCM_AOTRITON_ENABLE_EXPERIMENTAL=1 python main.py --use-pytorch-cross-attention```

84
alembic.ini Normal file
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@ -0,0 +1,84 @@
# A generic, single database configuration.
[alembic]
# path to migration scripts
# Use forward slashes (/) also on windows to provide an os agnostic path
script_location = alembic_db
# template used to generate migration file names; The default value is %%(rev)s_%%(slug)s
# Uncomment the line below if you want the files to be prepended with date and time
# see https://alembic.sqlalchemy.org/en/latest/tutorial.html#editing-the-ini-file
# for all available tokens
# file_template = %%(year)d_%%(month).2d_%%(day).2d_%%(hour).2d%%(minute).2d-%%(rev)s_%%(slug)s
# sys.path path, will be prepended to sys.path if present.
# defaults to the current working directory.
prepend_sys_path = .
# timezone to use when rendering the date within the migration file
# as well as the filename.
# If specified, requires the python>=3.9 or backports.zoneinfo library and tzdata library.
# Any required deps can installed by adding `alembic[tz]` to the pip requirements
# string value is passed to ZoneInfo()
# leave blank for localtime
# timezone =
# max length of characters to apply to the "slug" field
# truncate_slug_length = 40
# set to 'true' to run the environment during
# the 'revision' command, regardless of autogenerate
# revision_environment = false
# set to 'true' to allow .pyc and .pyo files without
# a source .py file to be detected as revisions in the
# versions/ directory
# sourceless = false
# version location specification; This defaults
# to alembic_db/versions. When using multiple version
# directories, initial revisions must be specified with --version-path.
# The path separator used here should be the separator specified by "version_path_separator" below.
# version_locations = %(here)s/bar:%(here)s/bat:alembic_db/versions
# version path separator; As mentioned above, this is the character used to split
# version_locations. The default within new alembic.ini files is "os", which uses os.pathsep.
# If this key is omitted entirely, it falls back to the legacy behavior of splitting on spaces and/or commas.
# Valid values for version_path_separator are:
#
# version_path_separator = :
# version_path_separator = ;
# version_path_separator = space
# version_path_separator = newline
#
# Use os.pathsep. Default configuration used for new projects.
version_path_separator = os
# set to 'true' to search source files recursively
# in each "version_locations" directory
# new in Alembic version 1.10
# recursive_version_locations = false
# the output encoding used when revision files
# are written from script.py.mako
# output_encoding = utf-8
sqlalchemy.url = sqlite:///user/comfyui.db
[post_write_hooks]
# post_write_hooks defines scripts or Python functions that are run
# on newly generated revision scripts. See the documentation for further
# detail and examples
# format using "black" - use the console_scripts runner, against the "black" entrypoint
# hooks = black
# black.type = console_scripts
# black.entrypoint = black
# black.options = -l 79 REVISION_SCRIPT_FILENAME
# lint with attempts to fix using "ruff" - use the exec runner, execute a binary
# hooks = ruff
# ruff.type = exec
# ruff.executable = %(here)s/.venv/bin/ruff
# ruff.options = check --fix REVISION_SCRIPT_FILENAME

4
alembic_db/README.md Normal file
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@ -0,0 +1,4 @@
## Generate new revision
1. Update models in `/app/database/models.py`
2. Run `alembic revision --autogenerate -m "{your message}"`

64
alembic_db/env.py Normal file
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@ -0,0 +1,64 @@
from sqlalchemy import engine_from_config
from sqlalchemy import pool
from alembic import context
# this is the Alembic Config object, which provides
# access to the values within the .ini file in use.
config = context.config
from app.database.models import Base
target_metadata = Base.metadata
# other values from the config, defined by the needs of env.py,
# can be acquired:
# my_important_option = config.get_main_option("my_important_option")
# ... etc.
def run_migrations_offline() -> None:
"""Run migrations in 'offline' mode.
This configures the context with just a URL
and not an Engine, though an Engine is acceptable
here as well. By skipping the Engine creation
we don't even need a DBAPI to be available.
Calls to context.execute() here emit the given string to the
script output.
"""
url = config.get_main_option("sqlalchemy.url")
context.configure(
url=url,
target_metadata=target_metadata,
literal_binds=True,
dialect_opts={"paramstyle": "named"},
)
with context.begin_transaction():
context.run_migrations()
def run_migrations_online() -> None:
"""Run migrations in 'online' mode.
In this scenario we need to create an Engine
and associate a connection with the context.
"""
connectable = engine_from_config(
config.get_section(config.config_ini_section, {}),
prefix="sqlalchemy.",
poolclass=pool.NullPool,
)
with connectable.connect() as connection:
context.configure(
connection=connection, target_metadata=target_metadata
)
with context.begin_transaction():
context.run_migrations()
if context.is_offline_mode():
run_migrations_offline()
else:
run_migrations_online()

28
alembic_db/script.py.mako Normal file
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@ -0,0 +1,28 @@
"""${message}
Revision ID: ${up_revision}
Revises: ${down_revision | comma,n}
Create Date: ${create_date}
"""
from typing import Sequence, Union
from alembic import op
import sqlalchemy as sa
${imports if imports else ""}
# revision identifiers, used by Alembic.
revision: str = ${repr(up_revision)}
down_revision: Union[str, None] = ${repr(down_revision)}
branch_labels: Union[str, Sequence[str], None] = ${repr(branch_labels)}
depends_on: Union[str, Sequence[str], None] = ${repr(depends_on)}
def upgrade() -> None:
"""Upgrade schema."""
${upgrades if upgrades else "pass"}
def downgrade() -> None:
"""Downgrade schema."""
${downgrades if downgrades else "pass"}

112
app/database/db.py Normal file
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@ -0,0 +1,112 @@
import logging
import os
import shutil
from app.logger import log_startup_warning
from utils.install_util import get_missing_requirements_message
from comfy.cli_args import args
_DB_AVAILABLE = False
Session = None
try:
from alembic import command
from alembic.config import Config
from alembic.runtime.migration import MigrationContext
from alembic.script import ScriptDirectory
from sqlalchemy import create_engine
from sqlalchemy.orm import sessionmaker
_DB_AVAILABLE = True
except ImportError as e:
log_startup_warning(
f"""
------------------------------------------------------------------------
Error importing dependencies: {e}
{get_missing_requirements_message()}
This error is happening because ComfyUI now uses a local sqlite database.
------------------------------------------------------------------------
""".strip()
)
def dependencies_available():
"""
Temporary function to check if the dependencies are available
"""
return _DB_AVAILABLE
def can_create_session():
"""
Temporary function to check if the database is available to create a session
During initial release there may be environmental issues (or missing dependencies) that prevent the database from being created
"""
return dependencies_available() and Session is not None
def get_alembic_config():
root_path = os.path.join(os.path.dirname(__file__), "../..")
config_path = os.path.abspath(os.path.join(root_path, "alembic.ini"))
scripts_path = os.path.abspath(os.path.join(root_path, "alembic_db"))
config = Config(config_path)
config.set_main_option("script_location", scripts_path)
config.set_main_option("sqlalchemy.url", args.database_url)
return config
def get_db_path():
url = args.database_url
if url.startswith("sqlite:///"):
return url.split("///")[1]
else:
raise ValueError(f"Unsupported database URL '{url}'.")
def init_db():
db_url = args.database_url
logging.debug(f"Database URL: {db_url}")
db_path = get_db_path()
db_exists = os.path.exists(db_path)
config = get_alembic_config()
# Check if we need to upgrade
engine = create_engine(db_url)
conn = engine.connect()
context = MigrationContext.configure(conn)
current_rev = context.get_current_revision()
script = ScriptDirectory.from_config(config)
target_rev = script.get_current_head()
if target_rev is None:
logging.warning("No target revision found.")
elif current_rev != target_rev:
# Backup the database pre upgrade
backup_path = db_path + ".bkp"
if db_exists:
shutil.copy(db_path, backup_path)
else:
backup_path = None
try:
command.upgrade(config, target_rev)
logging.info(f"Database upgraded from {current_rev} to {target_rev}")
except Exception as e:
if backup_path:
# Restore the database from backup if upgrade fails
shutil.copy(backup_path, db_path)
os.remove(backup_path)
logging.exception("Error upgrading database: ")
raise e
global Session
Session = sessionmaker(bind=engine)
def create_session():
return Session()

14
app/database/models.py Normal file
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@ -0,0 +1,14 @@
from sqlalchemy.orm import declarative_base
Base = declarative_base()
def to_dict(obj):
fields = obj.__table__.columns.keys()
return {
field: (val.to_dict() if hasattr(val, "to_dict") else val)
for field in fields
if (val := getattr(obj, field))
}
# TODO: Define models here

45
app/frontend_management.py
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@ -16,26 +16,17 @@ from importlib.metadata import version
import requests
from typing_extensions import NotRequired
from utils.install_util import get_missing_requirements_message, requirements_path
from comfy.cli_args import DEFAULT_VERSION_STRING
import app.logger
# The path to the requirements.txt file
req_path = Path(__file__).parents[1] / "requirements.txt"
def frontend_install_warning_message():
"""The warning message to display when the frontend version is not up to date."""
extra = ""
if sys.flags.no_user_site:
extra = "-s "
return f"""
Please install the updated requirements.txt file by running:
{sys.executable} {extra}-m pip install -r {req_path}
{get_missing_requirements_message()}
This error is happening because the ComfyUI frontend is no longer shipped as part of the main repo but as a pip package instead.
If you are on the portable package you can run: update\\update_comfyui.bat to solve this problem
""".strip()
@ -48,7 +39,7 @@ def check_frontend_version():
try:
frontend_version_str = version("comfyui-frontend-package")
frontend_version = parse_version(frontend_version_str)
with open(req_path, "r", encoding="utf-8") as f:
with open(requirements_path, "r", encoding="utf-8") as f:
required_frontend = parse_version(f.readline().split("=")[-1])
if frontend_version < required_frontend:
app.logger.log_startup_warning(
@ -121,9 +112,22 @@ class FrontEndProvider:
response.raise_for_status() # Raises an HTTPError if the response was an error
return response.json()
@cached_property
def latest_prerelease(self) -> Release:
"""Get the latest pre-release version - even if it's older than the latest release"""
release = [release for release in self.all_releases if release["prerelease"]]
if not release:
raise ValueError("No pre-releases found")
# GitHub returns releases in reverse chronological order, so first is latest
return release[0]
def get_release(self, version: str) -> Release:
if version == "latest":
return self.latest_release
elif version == "prerelease":
return self.latest_prerelease
else:
for release in self.all_releases:
if release["tag_name"] in [version, f"v{version}"]:
@ -205,6 +209,19 @@ comfyui-workflow-templates is not installed.
""".strip()
)
@classmethod
def embedded_docs_path(cls) -> str:
"""Get the path to embedded documentation"""
try:
import comfyui_embedded_docs
return str(
importlib.resources.files(comfyui_embedded_docs) / "docs"
)
except ImportError:
logging.info("comfyui-embedded-docs package not found")
return None
@classmethod
def parse_version_string(cls, value: str) -> tuple[str, str, str]:
"""
@ -217,7 +234,7 @@ comfyui-workflow-templates is not installed.
Raises:
argparse.ArgumentTypeError: If the version string is invalid.
"""
VERSION_PATTERN = r"^([a-zA-Z0-9][a-zA-Z0-9-]{0,38})/([a-zA-Z0-9_.-]+)@(v?\d+\.\d+\.\d+|latest)$"
VERSION_PATTERN = r"^([a-zA-Z0-9][a-zA-Z0-9-]{0,38})/([a-zA-Z0-9_.-]+)@(v?\d+\.\d+\.\d+[-._a-zA-Z0-9]*|latest|prerelease)$"
match_result = re.match(VERSION_PATTERN, value)
if match_result is None:
raise argparse.ArgumentTypeError(f"Invalid version string: {value}")

6
comfy/cli_args.py
View File

@ -88,6 +88,7 @@ parser.add_argument("--directml", type=int, nargs="?", metavar="DIRECTML_DEVICE"
parser.add_argument("--oneapi-device-selector", type=str, default=None, metavar="SELECTOR_STRING", help="Sets the oneAPI device(s) this instance will use.")
parser.add_argument("--disable-ipex-optimize", action="store_true", help="Disables ipex.optimize default when loading models with Intel's Extension for Pytorch.")
parser.add_argument("--supports-fp8-compute", action="store_true", help="ComfyUI will act like if the device supports fp8 compute.")
class LatentPreviewMethod(enum.Enum):
NoPreviews = "none"
@ -202,6 +203,11 @@ parser.add_argument(
help="Set the base URL for the ComfyUI API. (default: https://api.comfy.org)",
)
database_default_path = os.path.abspath(
os.path.join(os.path.dirname(__file__), "..", "user", "comfyui.db")
)
parser.add_argument("--database-url", type=str, default=f"sqlite:///{database_default_path}", help="Specify the database URL, e.g. for an in-memory database you can use 'sqlite:///:memory:'.")
if comfy.options.args_parsing:
args = parser.parse_args()
else:

4
comfy/comfy_types/node_typing.py
View File

@ -37,6 +37,8 @@ class IO(StrEnum):
CONTROL_NET = "CONTROL_NET"
VAE = "VAE"
MODEL = "MODEL"
LORA_MODEL = "LORA_MODEL"
LOSS_MAP = "LOSS_MAP"
CLIP_VISION = "CLIP_VISION"
CLIP_VISION_OUTPUT = "CLIP_VISION_OUTPUT"
STYLE_MODEL = "STYLE_MODEL"
@ -235,7 +237,7 @@ class ComfyNodeABC(ABC):
DEPRECATED: bool
"""Flags a node as deprecated, indicating to users that they should find alternatives to this node."""
API_NODE: Optional[bool]
"""Flags a node as an API node."""
"""Flags a node as an API node. See: https://docs.comfy.org/tutorials/api-nodes/overview."""
@classmethod
@abstractmethod

50
comfy/conds.py
View File

@ -24,6 +24,10 @@ class CONDRegular:
conds.append(x.cond)
return torch.cat(conds)
def size(self):
return list(self.cond.size())
class CONDNoiseShape(CONDRegular):
def process_cond(self, batch_size, device, area, **kwargs):
data = self.cond
@ -64,6 +68,7 @@ class CONDCrossAttn(CONDRegular):
out.append(c)
return torch.cat(out)
class CONDConstant(CONDRegular):
def __init__(self, cond):
self.cond = cond
@ -78,3 +83,48 @@ class CONDConstant(CONDRegular):
def concat(self, others):
return self.cond
def size(self):
return [1]
class CONDList(CONDRegular):
def __init__(self, cond):
self.cond = cond
def process_cond(self, batch_size, device, **kwargs):
out = []
for c in self.cond:
out.append(comfy.utils.repeat_to_batch_size(c, batch_size).to(device))
return self._copy_with(out)
def can_concat(self, other):
if len(self.cond) != len(other.cond):
return False
for i in range(len(self.cond)):
if self.cond[i].shape != other.cond[i].shape:
return False
return True
def concat(self, others):
out = []
for i in range(len(self.cond)):
o = [self.cond[i]]
for x in others:
o.append(x.cond[i])
out.append(torch.cat(o))
return out
def size(self): # hackish implementation to make the mem estimation work
o = 0
c = 1
for c in self.cond:
size = c.size()
o += math.prod(size)
if len(size) > 1:
c = size[1]
return [1, c, o // c]

5
comfy/controlnet.py
View File

@ -433,8 +433,9 @@ class ControlLora(ControlNet):
pass
for k in self.control_weights:
if k not in {"lora_controlnet"}:
comfy.utils.set_attr_param(self.control_model, k, self.control_weights[k].to(dtype).to(comfy.model_management.get_torch_device()))
if (k not in {"lora_controlnet"}):
if (k.endswith(".up") or k.endswith(".down") or k.endswith(".weight") or k.endswith(".bias")) and ("__" not in k):
comfy.utils.set_attr_param(self.control_model, k, self.control_weights[k].to(dtype).to(comfy.model_management.get_torch_device()))
def copy(self):
c = ControlLora(self.control_weights, global_average_pooling=self.global_average_pooling)

219
comfy/k_diffusion/sampling.py
View File

@ -1,4 +1,5 @@
import math
from functools import partial
from scipy import integrate
import torch
@ -142,6 +143,33 @@ class BrownianTreeNoiseSampler:
return self.tree(t0, t1) / (t1 - t0).abs().sqrt()
def sigma_to_half_log_snr(sigma, model_sampling):
"""Convert sigma to half-logSNR log(alpha_t / sigma_t)."""
if isinstance(model_sampling, comfy.model_sampling.CONST):
# log((1 - t) / t) = log((1 - sigma) / sigma)
return sigma.logit().neg()
return sigma.log().neg()
def half_log_snr_to_sigma(half_log_snr, model_sampling):
"""Convert half-logSNR log(alpha_t / sigma_t) to sigma."""
if isinstance(model_sampling, comfy.model_sampling.CONST):
# 1 / (1 + exp(half_log_snr))
return half_log_snr.neg().sigmoid()
return half_log_snr.neg().exp()
def offset_first_sigma_for_snr(sigmas, model_sampling, percent_offset=1e-4):
"""Adjust the first sigma to avoid invalid logSNR."""
if len(sigmas) <= 1:
return sigmas
if isinstance(model_sampling, comfy.model_sampling.CONST):
if sigmas[0] >= 1:
sigmas = sigmas.clone()
sigmas[0] = model_sampling.percent_to_sigma(percent_offset)
return sigmas
@torch.no_grad()
def sample_euler(model, x, sigmas, extra_args=None, callback=None, disable=None, s_churn=0., s_tmin=0., s_tmax=float('inf'), s_noise=1.):
"""Implements Algorithm 2 (Euler steps) from Karras et al. (2022)."""
@ -753,6 +781,7 @@ def sample_dpmpp_2m(model, x, sigmas, extra_args=None, callback=None, disable=No
old_denoised = denoised
return x
@torch.no_grad()
def sample_dpmpp_2m_sde(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, solver_type='midpoint'):
"""DPM-Solver++(2M) SDE."""
@ -768,9 +797,12 @@ def sample_dpmpp_2m_sde(model, x, sigmas, extra_args=None, callback=None, disabl
noise_sampler = BrownianTreeNoiseSampler(x, sigma_min, sigma_max, seed=seed, cpu=True) if noise_sampler is None else noise_sampler
s_in = x.new_ones([x.shape[0]])
model_sampling = model.inner_model.model_patcher.get_model_object('model_sampling')
lambda_fn = partial(sigma_to_half_log_snr, model_sampling=model_sampling)
sigmas = offset_first_sigma_for_snr(sigmas, model_sampling)
old_denoised = None
h_last = None
h = None
h, h_last = None, None
for i in trange(len(sigmas) - 1, disable=disable):
denoised = model(x, sigmas[i] * s_in, **extra_args)
@ -781,26 +813,29 @@ def sample_dpmpp_2m_sde(model, x, sigmas, extra_args=None, callback=None, disabl
x = denoised
else:
# DPM-Solver++(2M) SDE
t, s = -sigmas[i].log(), -sigmas[i + 1].log()
h = s - t
eta_h = eta * h
lambda_s, lambda_t = lambda_fn(sigmas[i]), lambda_fn(sigmas[i + 1])
h = lambda_t - lambda_s
h_eta = h * (eta + 1)
x = sigmas[i + 1] / sigmas[i] * (-eta_h).exp() * x + (-h - eta_h).expm1().neg() * denoised
alpha_t = sigmas[i + 1] * lambda_t.exp()
x = sigmas[i + 1] / sigmas[i] * (-h * eta).exp() * x + alpha_t * (-h_eta).expm1().neg() * denoised
if old_denoised is not None:
r = h_last / h
if solver_type == 'heun':
x = x + ((-h - eta_h).expm1().neg() / (-h - eta_h) + 1) * (1 / r) * (denoised - old_denoised)
x = x + alpha_t * ((-h_eta).expm1().neg() / (-h_eta) + 1) * (1 / r) * (denoised - old_denoised)
elif solver_type == 'midpoint':
x = x + 0.5 * (-h - eta_h).expm1().neg() * (1 / r) * (denoised - old_denoised)
x = x + 0.5 * alpha_t * (-h_eta).expm1().neg() * (1 / r) * (denoised - old_denoised)
if eta:
x = x + noise_sampler(sigmas[i], sigmas[i + 1]) * sigmas[i + 1] * (-2 * eta_h).expm1().neg().sqrt() * s_noise
if eta > 0 and s_noise > 0:
x = x + noise_sampler(sigmas[i], sigmas[i + 1]) * sigmas[i + 1] * (-2 * h * eta).expm1().neg().sqrt() * s_noise
old_denoised = denoised
h_last = h
return x
@torch.no_grad()
def sample_dpmpp_3m_sde(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None):
"""DPM-Solver++(3M) SDE."""
@ -814,6 +849,10 @@ def sample_dpmpp_3m_sde(model, x, sigmas, extra_args=None, callback=None, disabl
noise_sampler = BrownianTreeNoiseSampler(x, sigma_min, sigma_max, seed=seed, cpu=True) if noise_sampler is None else noise_sampler
s_in = x.new_ones([x.shape[0]])
model_sampling = model.inner_model.model_patcher.get_model_object('model_sampling')
lambda_fn = partial(sigma_to_half_log_snr, model_sampling=model_sampling)
sigmas = offset_first_sigma_for_snr(sigmas, model_sampling)
denoised_1, denoised_2 = None, None
h, h_1, h_2 = None, None, None
@ -825,13 +864,16 @@ def sample_dpmpp_3m_sde(model, x, sigmas, extra_args=None, callback=None, disabl
# Denoising step
x = denoised
else:
t, s = -sigmas[i].log(), -sigmas[i + 1].log()
h = s - t
lambda_s, lambda_t = lambda_fn(sigmas[i]), lambda_fn(sigmas[i + 1])
h = lambda_t - lambda_s
h_eta = h * (eta + 1)
x = torch.exp(-h_eta) * x + (-h_eta).expm1().neg() * denoised
alpha_t = sigmas[i + 1] * lambda_t.exp()
x = sigmas[i + 1] / sigmas[i] * (-h * eta).exp() * x + alpha_t * (-h_eta).expm1().neg() * denoised
if h_2 is not None:
# DPM-Solver++(3M) SDE
r0 = h_1 / h
r1 = h_2 / h
d1_0 = (denoised - denoised_1) / r0
@ -840,20 +882,22 @@ def sample_dpmpp_3m_sde(model, x, sigmas, extra_args=None, callback=None, disabl
d2 = (d1_0 - d1_1) / (r0 + r1)
phi_2 = h_eta.neg().expm1() / h_eta + 1
phi_3 = phi_2 / h_eta - 0.5
x = x + phi_2 * d1 - phi_3 * d2
x = x + (alpha_t * phi_2) * d1 - (alpha_t * phi_3) * d2
elif h_1 is not None:
# DPM-Solver++(2M) SDE
r = h_1 / h
d = (denoised - denoised_1) / r
phi_2 = h_eta.neg().expm1() / h_eta + 1
x = x + phi_2 * d
x = x + (alpha_t * phi_2) * d
if eta:
if eta > 0 and s_noise > 0:
x = x + noise_sampler(sigmas[i], sigmas[i + 1]) * sigmas[i + 1] * (-2 * h * eta).expm1().neg().sqrt() * s_noise
denoised_1, denoised_2 = denoised, denoised_1
h_1, h_2 = h, h_1
return x
@torch.no_grad()
def sample_dpmpp_3m_sde_gpu(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None):
if len(sigmas) <= 1:
@ -863,6 +907,7 @@ def sample_dpmpp_3m_sde_gpu(model, x, sigmas, extra_args=None, callback=None, di
noise_sampler = BrownianTreeNoiseSampler(x, sigma_min, sigma_max, seed=extra_args.get("seed", None), cpu=False) if noise_sampler is None else noise_sampler
return sample_dpmpp_3m_sde(model, x, sigmas, extra_args=extra_args, callback=callback, disable=disable, eta=eta, s_noise=s_noise, noise_sampler=noise_sampler)
@torch.no_grad()
def sample_dpmpp_2m_sde_gpu(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, solver_type='midpoint'):
if len(sigmas) <= 1:
@ -872,6 +917,7 @@ def sample_dpmpp_2m_sde_gpu(model, x, sigmas, extra_args=None, callback=None, di
noise_sampler = BrownianTreeNoiseSampler(x, sigma_min, sigma_max, seed=extra_args.get("seed", None), cpu=False) if noise_sampler is None else noise_sampler
return sample_dpmpp_2m_sde(model, x, sigmas, extra_args=extra_args, callback=callback, disable=disable, eta=eta, s_noise=s_noise, noise_sampler=noise_sampler, solver_type=solver_type)
@torch.no_grad()
def sample_dpmpp_sde_gpu(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, r=1 / 2):
if len(sigmas) <= 1:
@ -1449,12 +1495,12 @@ def sample_er_sde(model, x, sigmas, extra_args=None, callback=None, disable=None
old_denoised = denoised
return x
@torch.no_grad()
def sample_seeds_2(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, r=0.5):
'''
SEEDS-2 - Stochastic Explicit Exponential Derivative-free Solvers (VE Data Prediction) stage 2
Arxiv: https://arxiv.org/abs/2305.14267
'''
"""SEEDS-2 - Stochastic Explicit Exponential Derivative-free Solvers (VP Data Prediction) stage 2.
arXiv: https://arxiv.org/abs/2305.14267
"""
extra_args = {} if extra_args is None else extra_args
seed = extra_args.get("seed", None)
noise_sampler = default_noise_sampler(x, seed=seed) if noise_sampler is None else noise_sampler
@ -1462,6 +1508,11 @@ def sample_seeds_2(model, x, sigmas, extra_args=None, callback=None, disable=Non
inject_noise = eta > 0 and s_noise > 0
model_sampling = model.inner_model.model_patcher.get_model_object('model_sampling')
sigma_fn = partial(half_log_snr_to_sigma, model_sampling=model_sampling)
lambda_fn = partial(sigma_to_half_log_snr, model_sampling=model_sampling)
sigmas = offset_first_sigma_for_snr(sigmas, model_sampling)
for i in trange(len(sigmas) - 1, disable=disable):
denoised = model(x, sigmas[i] * s_in, **extra_args)
if callback is not None:
@ -1469,80 +1520,96 @@ def sample_seeds_2(model, x, sigmas, extra_args=None, callback=None, disable=Non
if sigmas[i + 1] == 0:
x = denoised
else:
t, t_next = -sigmas[i].log(), -sigmas[i + 1].log()
h = t_next - t
lambda_s, lambda_t = lambda_fn(sigmas[i]), lambda_fn(sigmas[i + 1])
h = lambda_t - lambda_s
h_eta = h * (eta + 1)
s = t + r * h
lambda_s_1 = lambda_s + r * h
fac = 1 / (2 * r)
sigma_s = s.neg().exp()
sigma_s_1 = sigma_fn(lambda_s_1)
# alpha_t = sigma_t * exp(log(alpha_t / sigma_t)) = sigma_t * exp(lambda_t)
alpha_s_1 = sigma_s_1 * lambda_s_1.exp()
alpha_t = sigmas[i + 1] * lambda_t.exp()
coeff_1, coeff_2 = (-r * h_eta).expm1(), (-h_eta).expm1()
if inject_noise:
# 0 < r < 1
noise_coeff_1 = (-2 * r * h * eta).expm1().neg().sqrt()
noise_coeff_2 = ((-2 * r * h * eta).expm1() - (-2 * h * eta).expm1()).sqrt()
noise_1, noise_2 = noise_sampler(sigmas[i], sigma_s), noise_sampler(sigma_s, sigmas[i + 1])
noise_coeff_2 = (-r * h * eta).exp() * (-2 * (1 - r) * h * eta).expm1().neg().sqrt()
noise_1, noise_2 = noise_sampler(sigmas[i], sigma_s_1), noise_sampler(sigma_s_1, sigmas[i + 1])
# Step 1
x_2 = (coeff_1 + 1) * x - coeff_1 * denoised
if inject_noise:
x_2 = x_2 + sigma_s * (noise_coeff_1 * noise_1) * s_noise
denoised_2 = model(x_2, sigma_s * s_in, **extra_args)
# Step 2
denoised_d = (1 - fac) * denoised + fac * denoised_2
x = (coeff_2 + 1) * x - coeff_2 * denoised_d
if inject_noise:
x = x + sigmas[i + 1] * (noise_coeff_2 * noise_1 + noise_coeff_1 * noise_2) * s_noise
return x
@torch.no_grad()
def sample_seeds_3(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, r_1=1./3, r_2=2./3):
'''
SEEDS-3 - Stochastic Explicit Exponential Derivative-free Solvers (VE Data Prediction) stage 3
Arxiv: https://arxiv.org/abs/2305.14267
'''
extra_args = {} if extra_args is None else extra_args
seed = extra_args.get("seed", None)
noise_sampler = default_noise_sampler(x, seed=seed) if noise_sampler is None else noise_sampler
s_in = x.new_ones([x.shape[0]])
inject_noise = eta > 0 and s_noise > 0
for i in trange(len(sigmas) - 1, disable=disable):
denoised = model(x, sigmas[i] * s_in, **extra_args)
if callback is not None:
callback({'x': x, 'i': i, 'sigma': sigmas[i], 'sigma_hat': sigmas[i], 'denoised': denoised})
if sigmas[i + 1] == 0:
x = denoised
else:
t, t_next = -sigmas[i].log(), -sigmas[i + 1].log()
h = t_next - t
h_eta = h * (eta + 1)
s_1 = t + r_1 * h
s_2 = t + r_2 * h
sigma_s_1, sigma_s_2 = s_1.neg().exp(), s_2.neg().exp()
coeff_1, coeff_2, coeff_3 = (-r_1 * h_eta).expm1(), (-r_2 * h_eta).expm1(), (-h_eta).expm1()
if inject_noise:
noise_coeff_1 = (-2 * r_1 * h * eta).expm1().neg().sqrt()
noise_coeff_2 = ((-2 * r_1 * h * eta).expm1() - (-2 * r_2 * h * eta).expm1()).sqrt()
noise_coeff_3 = ((-2 * r_2 * h * eta).expm1() - (-2 * h * eta).expm1()).sqrt()
noise_1, noise_2, noise_3 = noise_sampler(sigmas[i], sigma_s_1), noise_sampler(sigma_s_1, sigma_s_2), noise_sampler(sigma_s_2, sigmas[i + 1])
# Step 1
x_2 = (coeff_1 + 1) * x - coeff_1 * denoised
x_2 = sigma_s_1 / sigmas[i] * (-r * h * eta).exp() * x - alpha_s_1 * coeff_1 * denoised
if inject_noise:
x_2 = x_2 + sigma_s_1 * (noise_coeff_1 * noise_1) * s_noise
denoised_2 = model(x_2, sigma_s_1 * s_in, **extra_args)
# Step 2
x_3 = (coeff_2 + 1) * x - coeff_2 * denoised + (r_2 / r_1) * (coeff_2 / (r_2 * h_eta) + 1) * (denoised_2 - denoised)
denoised_d = (1 - fac) * denoised + fac * denoised_2
x = sigmas[i + 1] / sigmas[i] * (-h * eta).exp() * x - alpha_t * coeff_2 * denoised_d
if inject_noise:
x = x + sigmas[i + 1] * (noise_coeff_2 * noise_1 + noise_coeff_1 * noise_2) * s_noise
return x
@torch.no_grad()
def sample_seeds_3(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, r_1=1./3, r_2=2./3):
"""SEEDS-3 - Stochastic Explicit Exponential Derivative-free Solvers (VP Data Prediction) stage 3.
arXiv: https://arxiv.org/abs/2305.14267
"""
extra_args = {} if extra_args is None else extra_args
seed = extra_args.get("seed", None)
noise_sampler = default_noise_sampler(x, seed=seed) if noise_sampler is None else noise_sampler
s_in = x.new_ones([x.shape[0]])
inject_noise = eta > 0 and s_noise > 0
model_sampling = model.inner_model.model_patcher.get_model_object('model_sampling')
sigma_fn = partial(half_log_snr_to_sigma, model_sampling=model_sampling)
lambda_fn = partial(sigma_to_half_log_snr, model_sampling=model_sampling)
sigmas = offset_first_sigma_for_snr(sigmas, model_sampling)
for i in trange(len(sigmas) - 1, disable=disable):
denoised = model(x, sigmas[i] * s_in, **extra_args)
if callback is not None:
callback({'x': x, 'i': i, 'sigma': sigmas[i], 'sigma_hat': sigmas[i], 'denoised': denoised})
if sigmas[i + 1] == 0:
x = denoised
else:
lambda_s, lambda_t = lambda_fn(sigmas[i]), lambda_fn(sigmas[i + 1])
h = lambda_t - lambda_s
h_eta = h * (eta + 1)
lambda_s_1 = lambda_s + r_1 * h
lambda_s_2 = lambda_s + r_2 * h
sigma_s_1, sigma_s_2 = sigma_fn(lambda_s_1), sigma_fn(lambda_s_2)
# alpha_t = sigma_t * exp(log(alpha_t / sigma_t)) = sigma_t * exp(lambda_t)
alpha_s_1 = sigma_s_1 * lambda_s_1.exp()
alpha_s_2 = sigma_s_2 * lambda_s_2.exp()
alpha_t = sigmas[i + 1] * lambda_t.exp()
coeff_1, coeff_2, coeff_3 = (-r_1 * h_eta).expm1(), (-r_2 * h_eta).expm1(), (-h_eta).expm1()
if inject_noise:
# 0 < r_1 < r_2 < 1
noise_coeff_1 = (-2 * r_1 * h * eta).expm1().neg().sqrt()
noise_coeff_2 = (-r_1 * h * eta).exp() * (-2 * (r_2 - r_1) * h * eta).expm1().neg().sqrt()
noise_coeff_3 = (-r_2 * h * eta).exp() * (-2 * (1 - r_2) * h * eta).expm1().neg().sqrt()
noise_1, noise_2, noise_3 = noise_sampler(sigmas[i], sigma_s_1), noise_sampler(sigma_s_1, sigma_s_2), noise_sampler(sigma_s_2, sigmas[i + 1])
# Step 1
x_2 = sigma_s_1 / sigmas[i] * (-r_1 * h * eta).exp() * x - alpha_s_1 * coeff_1 * denoised
if inject_noise:
x_2 = x_2 + sigma_s_1 * (noise_coeff_1 * noise_1) * s_noise
denoised_2 = model(x_2, sigma_s_1 * s_in, **extra_args)
# Step 2
x_3 = sigma_s_2 / sigmas[i] * (-r_2 * h * eta).exp() * x - alpha_s_2 * coeff_2 * denoised + (r_2 / r_1) * alpha_s_2 * (coeff_2 / (r_2 * h_eta) + 1) * (denoised_2 - denoised)
if inject_noise:
x_3 = x_3 + sigma_s_2 * (noise_coeff_2 * noise_1 + noise_coeff_1 * noise_2) * s_noise
denoised_3 = model(x_3, sigma_s_2 * s_in, **extra_args)
# Step 3
x = (coeff_3 + 1) * x - coeff_3 * denoised + (1. / r_2) * (coeff_3 / h_eta + 1) * (denoised_3 - denoised)
x = sigmas[i + 1] / sigmas[i] * (-h * eta).exp() * x - alpha_t * coeff_3 * denoised + (1. / r_2) * alpha_t * (coeff_3 / h_eta + 1) * (denoised_3 - denoised)
if inject_noise:
x = x + sigmas[i + 1] * (noise_coeff_3 * noise_1 + noise_coeff_2 * noise_2 + noise_coeff_1 * noise_3) * s_noise
return x

20
comfy/ldm/chroma/layers.py
View File

@ -80,15 +80,13 @@ class DoubleStreamBlock(nn.Module):
(img_mod1, img_mod2), (txt_mod1, txt_mod2) = vec
# prepare image for attention
img_modulated = self.img_norm1(img)
img_modulated = (1 + img_mod1.scale) * img_modulated + img_mod1.shift
img_modulated = torch.addcmul(img_mod1.shift, 1 + img_mod1.scale, self.img_norm1(img))
img_qkv = self.img_attn.qkv(img_modulated)
img_q, img_k, img_v = img_qkv.view(img_qkv.shape[0], img_qkv.shape[1], 3, self.num_heads, -1).permute(2, 0, 3, 1, 4)
img_q, img_k = self.img_attn.norm(img_q, img_k, img_v)
# prepare txt for attention
txt_modulated = self.txt_norm1(txt)
txt_modulated = (1 + txt_mod1.scale) * txt_modulated + txt_mod1.shift
txt_modulated = torch.addcmul(txt_mod1.shift, 1 + txt_mod1.scale, self.txt_norm1(txt))
txt_qkv = self.txt_attn.qkv(txt_modulated)
txt_q, txt_k, txt_v = txt_qkv.view(txt_qkv.shape[0], txt_qkv.shape[1], 3, self.num_heads, -1).permute(2, 0, 3, 1, 4)
txt_q, txt_k = self.txt_attn.norm(txt_q, txt_k, txt_v)
@ -102,12 +100,12 @@ class DoubleStreamBlock(nn.Module):
txt_attn, img_attn = attn[:, : txt.shape[1]], attn[:, txt.shape[1] :]
# calculate the img bloks
img = img + img_mod1.gate * self.img_attn.proj(img_attn)
img = img + img_mod2.gate * self.img_mlp((1 + img_mod2.scale) * self.img_norm2(img) + img_mod2.shift)
img.addcmul_(img_mod1.gate, self.img_attn.proj(img_attn))
img.addcmul_(img_mod2.gate, self.img_mlp(torch.addcmul(img_mod2.shift, 1 + img_mod2.scale, self.img_norm2(img))))
# calculate the txt bloks
txt += txt_mod1.gate * self.txt_attn.proj(txt_attn)
txt += txt_mod2.gate * self.txt_mlp((1 + txt_mod2.scale) * self.txt_norm2(txt) + txt_mod2.shift)
txt.addcmul_(txt_mod1.gate, self.txt_attn.proj(txt_attn))
txt.addcmul_(txt_mod2.gate, self.txt_mlp(torch.addcmul(txt_mod2.shift, 1 + txt_mod2.scale, self.txt_norm2(txt))))
if txt.dtype == torch.float16:
txt = torch.nan_to_num(txt, nan=0.0, posinf=65504, neginf=-65504)
@ -152,7 +150,7 @@ class SingleStreamBlock(nn.Module):
def forward(self, x: Tensor, pe: Tensor, vec: Tensor, attn_mask=None) -> Tensor:
mod = vec
x_mod = (1 + mod.scale) * self.pre_norm(x) + mod.shift
x_mod = torch.addcmul(mod.shift, 1 + mod.scale, self.pre_norm(x))
qkv, mlp = torch.split(self.linear1(x_mod), [3 * self.hidden_size, self.mlp_hidden_dim], dim=-1)
q, k, v = qkv.view(qkv.shape[0], qkv.shape[1], 3, self.num_heads, -1).permute(2, 0, 3, 1, 4)
@ -162,7 +160,7 @@ class SingleStreamBlock(nn.Module):
attn = attention(q, k, v, pe=pe, mask=attn_mask)
# compute activation in mlp stream, cat again and run second linear layer
output = self.linear2(torch.cat((attn, self.mlp_act(mlp)), 2))
x += mod.gate * output
x.addcmul_(mod.gate, output)
if x.dtype == torch.float16:
x = torch.nan_to_num(x, nan=0.0, posinf=65504, neginf=-65504)
return x
@ -178,6 +176,6 @@ class LastLayer(nn.Module):
shift, scale = vec
shift = shift.squeeze(1)
scale = scale.squeeze(1)
x = (1 + scale[:, None, :]) * self.norm_final(x) + shift[:, None, :]
x = torch.addcmul(shift[:, None, :], 1 + scale[:, None, :], self.norm_final(x))
x = self.linear(x)
return x

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

@ -163,7 +163,7 @@ class Chroma(nn.Module):
distil_guidance = timestep_embedding(guidance.detach().clone(), 16).to(img.device, img.dtype)
# get all modulation index
modulation_index = timestep_embedding(torch.arange(mod_index_length), 32).to(img.device, img.dtype)
modulation_index = timestep_embedding(torch.arange(mod_index_length, device=img.device), 32).to(img.device, img.dtype)
# we need to broadcast the modulation index here so each batch has all of the index
modulation_index = modulation_index.unsqueeze(0).repeat(img.shape[0], 1, 1).to(img.device, img.dtype)
# and we need to broadcast timestep and guidance along too

10
comfy/ldm/cosmos/blocks.py
View File

@ -26,16 +26,6 @@ from torch import nn
from comfy.ldm.modules.attention import optimized_attention
def apply_rotary_pos_emb(
t: torch.Tensor,
freqs: torch.Tensor,
) -> torch.Tensor:
t_ = t.reshape(*t.shape[:-1], 2, -1).movedim(-2, -1).unsqueeze(-2).float()
t_out = freqs[..., 0] * t_[..., 0] + freqs[..., 1] * t_[..., 1]
t_out = t_out.movedim(-1, -2).reshape(*t.shape).type_as(t)
return t_out
def get_normalization(name: str, channels: int, weight_args={}, operations=None):
if name == "I":
return nn.Identity()

17
comfy/ldm/cosmos/position_embedding.py
View File

@ -66,15 +66,16 @@ class VideoRopePosition3DEmb(VideoPositionEmb):
h_extrapolation_ratio: float = 1.0,
w_extrapolation_ratio: float = 1.0,
t_extrapolation_ratio: float = 1.0,
enable_fps_modulation: bool = True,
device=None,
**kwargs, # used for compatibility with other positional embeddings; unused in this class
):
del kwargs
super().__init__()
self.register_buffer("seq", torch.arange(max(len_h, len_w, len_t), dtype=torch.float, device=device))
self.base_fps = base_fps
self.max_h = len_h
self.max_w = len_w
self.enable_fps_modulation = enable_fps_modulation
dim = head_dim
dim_h = dim // 6 * 2
@ -132,21 +133,19 @@ class VideoRopePosition3DEmb(VideoPositionEmb):
temporal_freqs = 1.0 / (t_theta**self.dim_temporal_range.to(device=device))
B, T, H, W, _ = B_T_H_W_C
seq = torch.arange(max(H, W, T), dtype=torch.float, device=device)
uniform_fps = (fps is None) or isinstance(fps, (int, float)) or (fps.min() == fps.max())
assert (
uniform_fps or B == 1 or T == 1
), "For video batch, batch size should be 1 for non-uniform fps. For image batch, T should be 1"
assert (
H <= self.max_h and W <= self.max_w
), f"Input dimensions (H={H}, W={W}) exceed the maximum dimensions (max_h={self.max_h}, max_w={self.max_w})"
half_emb_h = torch.outer(self.seq[:H].to(device=device), h_spatial_freqs)
half_emb_w = torch.outer(self.seq[:W].to(device=device), w_spatial_freqs)
half_emb_h = torch.outer(seq[:H].to(device=device), h_spatial_freqs)
half_emb_w = torch.outer(seq[:W].to(device=device), w_spatial_freqs)
# apply sequence scaling in temporal dimension
if fps is None: # image case
half_emb_t = torch.outer(self.seq[:T].to(device=device), temporal_freqs)
if fps is None or self.enable_fps_modulation is False: # image case
half_emb_t = torch.outer(seq[:T].to(device=device), temporal_freqs)
else:
half_emb_t = torch.outer(self.seq[:T].to(device=device) / fps * self.base_fps, temporal_freqs)
half_emb_t = torch.outer(seq[:T].to(device=device) / fps * self.base_fps, temporal_freqs)
half_emb_h = torch.stack([torch.cos(half_emb_h), -torch.sin(half_emb_h), torch.sin(half_emb_h), torch.cos(half_emb_h)], dim=-1)
half_emb_w = torch.stack([torch.cos(half_emb_w), -torch.sin(half_emb_w), torch.sin(half_emb_w), torch.cos(half_emb_w)], dim=-1)

864
comfy/ldm/cosmos/predict2.py Normal file
View File

@ -0,0 +1,864 @@
# original code from: https://github.com/nvidia-cosmos/cosmos-predict2
import torch
from torch import nn
from einops import rearrange
from einops.layers.torch import Rearrange
import logging
from typing import Callable, Optional, Tuple
import math
from .position_embedding import VideoRopePosition3DEmb, LearnablePosEmbAxis
from torchvision import transforms
from comfy.ldm.modules.attention import optimized_attention
def apply_rotary_pos_emb(
t: torch.Tensor,
freqs: torch.Tensor,
) -> torch.Tensor:
t_ = t.reshape(*t.shape[:-1], 2, -1).movedim(-2, -1).unsqueeze(-2).float()
t_out = freqs[..., 0] * t_[..., 0] + freqs[..., 1] * t_[..., 1]
t_out = t_out.movedim(-1, -2).reshape(*t.shape).type_as(t)
return t_out
# ---------------------- Feed Forward Network -----------------------
class GPT2FeedForward(nn.Module):
def __init__(self, d_model: int, d_ff: int, device=None, dtype=None, operations=None) -> None:
super().__init__()
self.activation = nn.GELU()
self.layer1 = operations.Linear(d_model, d_ff, bias=False, device=device, dtype=dtype)
self.layer2 = operations.Linear(d_ff, d_model, bias=False, device=device, dtype=dtype)
self._layer_id = None
self._dim = d_model
self._hidden_dim = d_ff
def forward(self, x: torch.Tensor) -> torch.Tensor:
x = self.layer1(x)
x = self.activation(x)
x = self.layer2(x)
return x
def torch_attention_op(q_B_S_H_D: torch.Tensor, k_B_S_H_D: torch.Tensor, v_B_S_H_D: torch.Tensor) -> torch.Tensor:
"""Computes multi-head attention using PyTorch's native implementation.
This function provides a PyTorch backend alternative to Transformer Engine's attention operation.
It rearranges the input tensors to match PyTorch's expected format, computes scaled dot-product
attention, and rearranges the output back to the original format.
The input tensor names use the following dimension conventions:
- B: batch size
- S: sequence length
- H: number of attention heads
- D: head dimension
Args:
q_B_S_H_D: Query tensor with shape (batch, seq_len, n_heads, head_dim)
k_B_S_H_D: Key tensor with shape (batch, seq_len, n_heads, head_dim)
v_B_S_H_D: Value tensor with shape (batch, seq_len, n_heads, head_dim)
Returns:
Attention output tensor with shape (batch, seq_len, n_heads * head_dim)
"""
in_q_shape = q_B_S_H_D.shape
in_k_shape = k_B_S_H_D.shape
q_B_H_S_D = rearrange(q_B_S_H_D, "b ... h k -> b h ... k").view(in_q_shape[0], in_q_shape[-2], -1, in_q_shape[-1])
k_B_H_S_D = rearrange(k_B_S_H_D, "b ... h v -> b h ... v").view(in_k_shape[0], in_k_shape[-2], -1, in_k_shape[-1])
v_B_H_S_D = rearrange(v_B_S_H_D, "b ... h v -> b h ... v").view(in_k_shape[0], in_k_shape[-2], -1, in_k_shape[-1])
return optimized_attention(q_B_H_S_D, k_B_H_S_D, v_B_H_S_D, in_q_shape[-2], skip_reshape=True)
class Attention(nn.Module):
"""
A flexible attention module supporting both self-attention and cross-attention mechanisms.
This module implements a multi-head attention layer that can operate in either self-attention
or cross-attention mode. The mode is determined by whether a context dimension is provided.
The implementation uses scaled dot-product attention and supports optional bias terms and
dropout regularization.
Args:
query_dim (int): The dimensionality of the query vectors.
context_dim (int, optional): The dimensionality of the context (key/value) vectors.
If None, the module operates in self-attention mode using query_dim. Default: None
n_heads (int, optional): Number of attention heads for multi-head attention. Default: 8
head_dim (int, optional): The dimension of each attention head. Default: 64
dropout (float, optional): Dropout probability applied to the output. Default: 0.0
qkv_format (str, optional): Format specification for QKV tensors. Default: "bshd"
backend (str, optional): Backend to use for the attention operation. Default: "transformer_engine"
Examples:
>>> # Self-attention with 512 dimensions and 8 heads
>>> self_attn = Attention(query_dim=512)
>>> x = torch.randn(32, 16, 512) # (batch_size, seq_len, dim)
>>> out = self_attn(x) # (32, 16, 512)
>>> # Cross-attention
>>> cross_attn = Attention(query_dim=512, context_dim=256)
>>> query = torch.randn(32, 16, 512)
>>> context = torch.randn(32, 8, 256)
>>> out = cross_attn(query, context) # (32, 16, 512)
"""
def __init__(
self,
query_dim: int,
context_dim: Optional[int] = None,
n_heads: int = 8,
head_dim: int = 64,
dropout: float = 0.0,
device=None,
dtype=None,
operations=None,
) -> None:
super().__init__()
logging.debug(
f"Setting up {self.__class__.__name__}. Query dim is {query_dim}, context_dim is {context_dim} and using "
f"{n_heads} heads with a dimension of {head_dim}."
)
self.is_selfattn = context_dim is None # self attention
context_dim = query_dim if context_dim is None else context_dim
inner_dim = head_dim * n_heads
self.n_heads = n_heads
self.head_dim = head_dim
self.query_dim = query_dim
self.context_dim = context_dim
self.q_proj = operations.Linear(query_dim, inner_dim, bias=False, device=device, dtype=dtype)
self.q_norm = operations.RMSNorm(self.head_dim, eps=1e-6, device=device, dtype=dtype)
self.k_proj = operations.Linear(context_dim, inner_dim, bias=False, device=device, dtype=dtype)
self.k_norm = operations.RMSNorm(self.head_dim, eps=1e-6, device=device, dtype=dtype)
self.v_proj = operations.Linear(context_dim, inner_dim, bias=False, device=device, dtype=dtype)
self.v_norm = nn.Identity()
self.output_proj = operations.Linear(inner_dim, query_dim, bias=False, device=device, dtype=dtype)
self.output_dropout = nn.Dropout(dropout) if dropout > 1e-4 else nn.Identity()
self.attn_op = torch_attention_op
self._query_dim = query_dim
self._context_dim = context_dim
self._inner_dim = inner_dim
def compute_qkv(
self,
x: torch.Tensor,
context: Optional[torch.Tensor] = None,
rope_emb: Optional[torch.Tensor] = None,
) -> tuple[torch.Tensor, torch.Tensor, torch.Tensor]:
q = self.q_proj(x)
context = x if context is None else context
k = self.k_proj(context)
v = self.v_proj(context)
q, k, v = map(
lambda t: rearrange(t, "b ... (h d) -> b ... h d", h=self.n_heads, d=self.head_dim),
(q, k, v),
)
def apply_norm_and_rotary_pos_emb(
q: torch.Tensor, k: torch.Tensor, v: torch.Tensor, rope_emb: Optional[torch.Tensor]
) -> Tuple[torch.Tensor, torch.Tensor, torch.Tensor]:
q = self.q_norm(q)
k = self.k_norm(k)
v = self.v_norm(v)
if self.is_selfattn and rope_emb is not None: # only apply to self-attention!
q = apply_rotary_pos_emb(q, rope_emb)
k = apply_rotary_pos_emb(k, rope_emb)
return q, k, v
q, k, v = apply_norm_and_rotary_pos_emb(q, k, v, rope_emb)
return q, k, v
def compute_attention(self, q: torch.Tensor, k: torch.Tensor, v: torch.Tensor) -> torch.Tensor:
result = self.attn_op(q, k, v) # [B, S, H, D]
return self.output_dropout(self.output_proj(result))
def forward(
self,
x: torch.Tensor,
context: Optional[torch.Tensor] = None,
rope_emb: Optional[torch.Tensor] = None,
) -> torch.Tensor:
"""
Args:
x (Tensor): The query tensor of shape [B, Mq, K]
context (Optional[Tensor]): The key tensor of shape [B, Mk, K] or use x as context [self attention] if None
"""
q, k, v = self.compute_qkv(x, context, rope_emb=rope_emb)
return self.compute_attention(q, k, v)
class Timesteps(nn.Module):
def __init__(self, num_channels: int):
super().__init__()
self.num_channels = num_channels
def forward(self, timesteps_B_T: torch.Tensor) -> torch.Tensor:
assert timesteps_B_T.ndim == 2, f"Expected 2D input, got {timesteps_B_T.ndim}"
timesteps = timesteps_B_T.flatten().float()
half_dim = self.num_channels // 2
exponent = -math.log(10000) * torch.arange(half_dim, dtype=torch.float32, device=timesteps.device)
exponent = exponent / (half_dim - 0.0)
emb = torch.exp(exponent)
emb = timesteps[:, None].float() * emb[None, :]
sin_emb = torch.sin(emb)
cos_emb = torch.cos(emb)
emb = torch.cat([cos_emb, sin_emb], dim=-1)
return rearrange(emb, "(b t) d -> b t d", b=timesteps_B_T.shape[0], t=timesteps_B_T.shape[1])
class TimestepEmbedding(nn.Module):
def __init__(self, in_features: int, out_features: int, use_adaln_lora: bool = False, device=None, dtype=None, operations=None):
super().__init__()
logging.debug(
f"Using AdaLN LoRA Flag: {use_adaln_lora}. We enable bias if no AdaLN LoRA for backward compatibility."
)
self.in_dim = in_features
self.out_dim = out_features
self.linear_1 = operations.Linear(in_features, out_features, bias=not use_adaln_lora, device=device, dtype=dtype)
self.activation = nn.SiLU()
self.use_adaln_lora = use_adaln_lora
if use_adaln_lora:
self.linear_2 = operations.Linear(out_features, 3 * out_features, bias=False, device=device, dtype=dtype)
else:
self.linear_2 = operations.Linear(out_features, out_features, bias=False, device=device, dtype=dtype)
def forward(self, sample: torch.Tensor) -> Tuple[torch.Tensor, Optional[torch.Tensor]]:
emb = self.linear_1(sample)
emb = self.activation(emb)
emb = self.linear_2(emb)
if self.use_adaln_lora:
adaln_lora_B_T_3D = emb
emb_B_T_D = sample
else:
adaln_lora_B_T_3D = None
emb_B_T_D = emb
return emb_B_T_D, adaln_lora_B_T_3D
class PatchEmbed(nn.Module):
"""
PatchEmbed is a module for embedding patches from an input tensor by applying either 3D or 2D convolutional layers,
depending on the . This module can process inputs with temporal (video) and spatial (image) dimensions,
making it suitable for video and image processing tasks. It supports dividing the input into patches
and embedding each patch into a vector of size `out_channels`.
Parameters:
- spatial_patch_size (int): The size of each spatial patch.
- temporal_patch_size (int): The size of each temporal patch.
- in_channels (int): Number of input channels. Default: 3.
- out_channels (int): The dimension of the embedding vector for each patch. Default: 768.
- bias (bool): If True, adds a learnable bias to the output of the convolutional layers. Default: True.
"""
def __init__(
self,
spatial_patch_size: int,
temporal_patch_size: int,
in_channels: int = 3,
out_channels: int = 768,
device=None, dtype=None, operations=None
):
super().__init__()
self.spatial_patch_size = spatial_patch_size
self.temporal_patch_size = temporal_patch_size
self.proj = nn.Sequential(
Rearrange(
"b c (t r) (h m) (w n) -> b t h w (c r m n)",
r=temporal_patch_size,
m=spatial_patch_size,
n=spatial_patch_size,
),
operations.Linear(
in_channels * spatial_patch_size * spatial_patch_size * temporal_patch_size, out_channels, bias=False, device=device, dtype=dtype
),
)
self.dim = in_channels * spatial_patch_size * spatial_patch_size * temporal_patch_size
def forward(self, x: torch.Tensor) -> torch.Tensor:
"""
Forward pass of the PatchEmbed module.
Parameters:
- x (torch.Tensor): The input tensor of shape (B, C, T, H, W) where
B is the batch size,
C is the number of channels,
T is the temporal dimension,
H is the height, and
W is the width of the input.
Returns:
- torch.Tensor: The embedded patches as a tensor, with shape b t h w c.
"""
assert x.dim() == 5
_, _, T, H, W = x.shape
assert (
H % self.spatial_patch_size == 0 and W % self.spatial_patch_size == 0
), f"H,W {(H, W)} should be divisible by spatial_patch_size {self.spatial_patch_size}"
assert T % self.temporal_patch_size == 0
x = self.proj(x)
return x
class FinalLayer(nn.Module):
"""
The final layer of video DiT.
"""
def __init__(
self,
hidden_size: int,
spatial_patch_size: int,
temporal_patch_size: int,
out_channels: int,
use_adaln_lora: bool = False,
adaln_lora_dim: int = 256,
device=None, dtype=None, operations=None
):
super().__init__()
self.layer_norm = nn.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6)
self.linear = operations.Linear(
hidden_size, spatial_patch_size * spatial_patch_size * temporal_patch_size * out_channels, bias=False, device=device, dtype=dtype
)
self.hidden_size = hidden_size
self.n_adaln_chunks = 2
self.use_adaln_lora = use_adaln_lora
self.adaln_lora_dim = adaln_lora_dim
if use_adaln_lora:
self.adaln_modulation = nn.Sequential(
nn.SiLU(),
operations.Linear(hidden_size, adaln_lora_dim, bias=False, device=device, dtype=dtype),
operations.Linear(adaln_lora_dim, self.n_adaln_chunks * hidden_size, bias=False, device=device, dtype=dtype),
)
else:
self.adaln_modulation = nn.Sequential(
nn.SiLU(), operations.Linear(hidden_size, self.n_adaln_chunks * hidden_size, bias=False, device=device, dtype=dtype)
)
def forward(
self,
x_B_T_H_W_D: torch.Tensor,
emb_B_T_D: torch.Tensor,
adaln_lora_B_T_3D: Optional[torch.Tensor] = None,
):
if self.use_adaln_lora:
assert adaln_lora_B_T_3D is not None
shift_B_T_D, scale_B_T_D = (
self.adaln_modulation(emb_B_T_D) + adaln_lora_B_T_3D[:, :, : 2 * self.hidden_size]
).chunk(2, dim=-1)
else:
shift_B_T_D, scale_B_T_D = self.adaln_modulation(emb_B_T_D).chunk(2, dim=-1)
shift_B_T_1_1_D, scale_B_T_1_1_D = rearrange(shift_B_T_D, "b t d -> b t 1 1 d"), rearrange(
scale_B_T_D, "b t d -> b t 1 1 d"
)
def _fn(
_x_B_T_H_W_D: torch.Tensor,
_norm_layer: nn.Module,
_scale_B_T_1_1_D: torch.Tensor,
_shift_B_T_1_1_D: torch.Tensor,
) -> torch.Tensor:
return _norm_layer(_x_B_T_H_W_D) * (1 + _scale_B_T_1_1_D) + _shift_B_T_1_1_D
x_B_T_H_W_D = _fn(x_B_T_H_W_D, self.layer_norm, scale_B_T_1_1_D, shift_B_T_1_1_D)
x_B_T_H_W_O = self.linear(x_B_T_H_W_D)
return x_B_T_H_W_O
class Block(nn.Module):
"""
A transformer block that combines self-attention, cross-attention and MLP layers with AdaLN modulation.
Each component (self-attention, cross-attention, MLP) has its own layer normalization and AdaLN modulation.
Parameters:
x_dim (int): Dimension of input features
context_dim (int): Dimension of context features for cross-attention
num_heads (int): Number of attention heads
mlp_ratio (float): Multiplier for MLP hidden dimension. Default: 4.0
use_adaln_lora (bool): Whether to use AdaLN-LoRA modulation. Default: False
adaln_lora_dim (int): Hidden dimension for AdaLN-LoRA layers. Default: 256
The block applies the following sequence:
1. Self-attention with AdaLN modulation
2. Cross-attention with AdaLN modulation
3. MLP with AdaLN modulation
Each component uses skip connections and layer normalization.
"""
def __init__(
self,
x_dim: int,
context_dim: int,
num_heads: int,
mlp_ratio: float = 4.0,
use_adaln_lora: bool = False,
adaln_lora_dim: int = 256,
device=None,
dtype=None,
operations=None,
):
super().__init__()
self.x_dim = x_dim
self.layer_norm_self_attn = operations.LayerNorm(x_dim, elementwise_affine=False, eps=1e-6, device=device, dtype=dtype)
self.self_attn = Attention(x_dim, None, num_heads, x_dim // num_heads, device=device, dtype=dtype, operations=operations)
self.layer_norm_cross_attn = operations.LayerNorm(x_dim, elementwise_affine=False, eps=1e-6, device=device, dtype=dtype)
self.cross_attn = Attention(
x_dim, context_dim, num_heads, x_dim // num_heads, device=device, dtype=dtype, operations=operations
)
self.layer_norm_mlp = operations.LayerNorm(x_dim, elementwise_affine=False, eps=1e-6, device=device, dtype=dtype)
self.mlp = GPT2FeedForward(x_dim, int(x_dim * mlp_ratio), device=device, dtype=dtype, operations=operations)
self.use_adaln_lora = use_adaln_lora
if self.use_adaln_lora:
self.adaln_modulation_self_attn = nn.Sequential(
nn.SiLU(),
operations.Linear(x_dim, adaln_lora_dim, bias=False, device=device, dtype=dtype),
operations.Linear(adaln_lora_dim, 3 * x_dim, bias=False, device=device, dtype=dtype),
)
self.adaln_modulation_cross_attn = nn.Sequential(
nn.SiLU(),
operations.Linear(x_dim, adaln_lora_dim, bias=False, device=device, dtype=dtype),
operations.Linear(adaln_lora_dim, 3 * x_dim, bias=False, device=device, dtype=dtype),
)
self.adaln_modulation_mlp = nn.Sequential(
nn.SiLU(),
operations.Linear(x_dim, adaln_lora_dim, bias=False, device=device, dtype=dtype),
operations.Linear(adaln_lora_dim, 3 * x_dim, bias=False, device=device, dtype=dtype),
)
else:
self.adaln_modulation_self_attn = nn.Sequential(nn.SiLU(), operations.Linear(x_dim, 3 * x_dim, bias=False, device=device, dtype=dtype))
self.adaln_modulation_cross_attn = nn.Sequential(nn.SiLU(), operations.Linear(x_dim, 3 * x_dim, bias=False, device=device, dtype=dtype))
self.adaln_modulation_mlp = nn.Sequential(nn.SiLU(), operations.Linear(x_dim, 3 * x_dim, bias=False, device=device, dtype=dtype))
def forward(
self,
x_B_T_H_W_D: torch.Tensor,
emb_B_T_D: torch.Tensor,
crossattn_emb: torch.Tensor,
rope_emb_L_1_1_D: Optional[torch.Tensor] = None,
adaln_lora_B_T_3D: Optional[torch.Tensor] = None,
extra_per_block_pos_emb: Optional[torch.Tensor] = None,
) -> torch.Tensor:
if extra_per_block_pos_emb is not None:
x_B_T_H_W_D = x_B_T_H_W_D + extra_per_block_pos_emb
if self.use_adaln_lora:
shift_self_attn_B_T_D, scale_self_attn_B_T_D, gate_self_attn_B_T_D = (
self.adaln_modulation_self_attn(emb_B_T_D) + adaln_lora_B_T_3D
).chunk(3, dim=-1)
shift_cross_attn_B_T_D, scale_cross_attn_B_T_D, gate_cross_attn_B_T_D = (
self.adaln_modulation_cross_attn(emb_B_T_D) + adaln_lora_B_T_3D
).chunk(3, dim=-1)
shift_mlp_B_T_D, scale_mlp_B_T_D, gate_mlp_B_T_D = (
self.adaln_modulation_mlp(emb_B_T_D) + adaln_lora_B_T_3D
).chunk(3, dim=-1)
else:
shift_self_attn_B_T_D, scale_self_attn_B_T_D, gate_self_attn_B_T_D = self.adaln_modulation_self_attn(
emb_B_T_D
).chunk(3, dim=-1)
shift_cross_attn_B_T_D, scale_cross_attn_B_T_D, gate_cross_attn_B_T_D = self.adaln_modulation_cross_attn(
emb_B_T_D
).chunk(3, dim=-1)
shift_mlp_B_T_D, scale_mlp_B_T_D, gate_mlp_B_T_D = self.adaln_modulation_mlp(emb_B_T_D).chunk(3, dim=-1)
# Reshape tensors from (B, T, D) to (B, T, 1, 1, D) for broadcasting
shift_self_attn_B_T_1_1_D = rearrange(shift_self_attn_B_T_D, "b t d -> b t 1 1 d")
scale_self_attn_B_T_1_1_D = rearrange(scale_self_attn_B_T_D, "b t d -> b t 1 1 d")
gate_self_attn_B_T_1_1_D = rearrange(gate_self_attn_B_T_D, "b t d -> b t 1 1 d")
shift_cross_attn_B_T_1_1_D = rearrange(shift_cross_attn_B_T_D, "b t d -> b t 1 1 d")
scale_cross_attn_B_T_1_1_D = rearrange(scale_cross_attn_B_T_D, "b t d -> b t 1 1 d")
gate_cross_attn_B_T_1_1_D = rearrange(gate_cross_attn_B_T_D, "b t d -> b t 1 1 d")
shift_mlp_B_T_1_1_D = rearrange(shift_mlp_B_T_D, "b t d -> b t 1 1 d")
scale_mlp_B_T_1_1_D = rearrange(scale_mlp_B_T_D, "b t d -> b t 1 1 d")
gate_mlp_B_T_1_1_D = rearrange(gate_mlp_B_T_D, "b t d -> b t 1 1 d")
B, T, H, W, D = x_B_T_H_W_D.shape
def _fn(_x_B_T_H_W_D, _norm_layer, _scale_B_T_1_1_D, _shift_B_T_1_1_D):
return _norm_layer(_x_B_T_H_W_D) * (1 + _scale_B_T_1_1_D) + _shift_B_T_1_1_D
normalized_x_B_T_H_W_D = _fn(
x_B_T_H_W_D,
self.layer_norm_self_attn,
scale_self_attn_B_T_1_1_D,
shift_self_attn_B_T_1_1_D,
)
result_B_T_H_W_D = rearrange(
self.self_attn(
# normalized_x_B_T_HW_D,
rearrange(normalized_x_B_T_H_W_D, "b t h w d -> b (t h w) d"),
None,
rope_emb=rope_emb_L_1_1_D,
),
"b (t h w) d -> b t h w d",
t=T,
h=H,
w=W,
)
x_B_T_H_W_D = x_B_T_H_W_D + gate_self_attn_B_T_1_1_D * result_B_T_H_W_D
def _x_fn(
_x_B_T_H_W_D: torch.Tensor,
layer_norm_cross_attn: Callable,
_scale_cross_attn_B_T_1_1_D: torch.Tensor,
_shift_cross_attn_B_T_1_1_D: torch.Tensor,
) -> torch.Tensor:
_normalized_x_B_T_H_W_D = _fn(
_x_B_T_H_W_D, layer_norm_cross_attn, _scale_cross_attn_B_T_1_1_D, _shift_cross_attn_B_T_1_1_D
)
_result_B_T_H_W_D = rearrange(
self.cross_attn(
rearrange(_normalized_x_B_T_H_W_D, "b t h w d -> b (t h w) d"),
crossattn_emb,
rope_emb=rope_emb_L_1_1_D,
),
"b (t h w) d -> b t h w d",
t=T,
h=H,
w=W,
)
return _result_B_T_H_W_D
result_B_T_H_W_D = _x_fn(
x_B_T_H_W_D,
self.layer_norm_cross_attn,
scale_cross_attn_B_T_1_1_D,
shift_cross_attn_B_T_1_1_D,
)
x_B_T_H_W_D = result_B_T_H_W_D * gate_cross_attn_B_T_1_1_D + x_B_T_H_W_D
normalized_x_B_T_H_W_D = _fn(
x_B_T_H_W_D,
self.layer_norm_mlp,
scale_mlp_B_T_1_1_D,
shift_mlp_B_T_1_1_D,
)
result_B_T_H_W_D = self.mlp(normalized_x_B_T_H_W_D)
x_B_T_H_W_D = x_B_T_H_W_D + gate_mlp_B_T_1_1_D * result_B_T_H_W_D
return x_B_T_H_W_D
class MiniTrainDIT(nn.Module):
"""
A clean impl of DIT that can load and reproduce the training results of the original DIT model in~(cosmos 1)
A general implementation of adaln-modulated VIT-like~(DiT) transformer for video processing.
Args:
max_img_h (int): Maximum height of the input images.
max_img_w (int): Maximum width of the input images.
max_frames (int): Maximum number of frames in the video sequence.
in_channels (int): Number of input channels (e.g., RGB channels for color images).
out_channels (int): Number of output channels.
patch_spatial (tuple): Spatial resolution of patches for input processing.
patch_temporal (int): Temporal resolution of patches for input processing.
concat_padding_mask (bool): If True, includes a mask channel in the input to handle padding.
model_channels (int): Base number of channels used throughout the model.
num_blocks (int): Number of transformer blocks.
num_heads (int): Number of heads in the multi-head attention layers.
mlp_ratio (float): Expansion ratio for MLP blocks.
crossattn_emb_channels (int): Number of embedding channels for cross-attention.
pos_emb_cls (str): Type of positional embeddings.
pos_emb_learnable (bool): Whether positional embeddings are learnable.
pos_emb_interpolation (str): Method for interpolating positional embeddings.
min_fps (int): Minimum frames per second.
max_fps (int): Maximum frames per second.
use_adaln_lora (bool): Whether to use AdaLN-LoRA.
adaln_lora_dim (int): Dimension for AdaLN-LoRA.
rope_h_extrapolation_ratio (float): Height extrapolation ratio for RoPE.
rope_w_extrapolation_ratio (float): Width extrapolation ratio for RoPE.
rope_t_extrapolation_ratio (float): Temporal extrapolation ratio for RoPE.
extra_per_block_abs_pos_emb (bool): Whether to use extra per-block absolute positional embeddings.
extra_h_extrapolation_ratio (float): Height extrapolation ratio for extra embeddings.
extra_w_extrapolation_ratio (float): Width extrapolation ratio for extra embeddings.
extra_t_extrapolation_ratio (float): Temporal extrapolation ratio for extra embeddings.
"""
def __init__(
self,
max_img_h: int,
max_img_w: int,
max_frames: int,
in_channels: int,
out_channels: int,
patch_spatial: int, # tuple,
patch_temporal: int,
concat_padding_mask: bool = True,
# attention settings
model_channels: int = 768,
num_blocks: int = 10,
num_heads: int = 16,
mlp_ratio: float = 4.0,
# cross attention settings
crossattn_emb_channels: int = 1024,
# positional embedding settings
pos_emb_cls: str = "sincos",
pos_emb_learnable: bool = False,
pos_emb_interpolation: str = "crop",
min_fps: int = 1,
max_fps: int = 30,
use_adaln_lora: bool = False,
adaln_lora_dim: int = 256,
rope_h_extrapolation_ratio: float = 1.0,
rope_w_extrapolation_ratio: float = 1.0,
rope_t_extrapolation_ratio: float = 1.0,
extra_per_block_abs_pos_emb: bool = False,
extra_h_extrapolation_ratio: float = 1.0,
extra_w_extrapolation_ratio: float = 1.0,
extra_t_extrapolation_ratio: float = 1.0,
rope_enable_fps_modulation: bool = True,
image_model=None,
device=None,
dtype=None,
operations=None,
) -> None:
super().__init__()
self.dtype = dtype
self.max_img_h = max_img_h
self.max_img_w = max_img_w
self.max_frames = max_frames
self.in_channels = in_channels
self.out_channels = out_channels
self.patch_spatial = patch_spatial
self.patch_temporal = patch_temporal
self.num_heads = num_heads
self.num_blocks = num_blocks
self.model_channels = model_channels
self.concat_padding_mask = concat_padding_mask
# positional embedding settings
self.pos_emb_cls = pos_emb_cls
self.pos_emb_learnable = pos_emb_learnable
self.pos_emb_interpolation = pos_emb_interpolation
self.min_fps = min_fps
self.max_fps = max_fps
self.rope_h_extrapolation_ratio = rope_h_extrapolation_ratio
self.rope_w_extrapolation_ratio = rope_w_extrapolation_ratio
self.rope_t_extrapolation_ratio = rope_t_extrapolation_ratio
self.extra_per_block_abs_pos_emb = extra_per_block_abs_pos_emb
self.extra_h_extrapolation_ratio = extra_h_extrapolation_ratio
self.extra_w_extrapolation_ratio = extra_w_extrapolation_ratio
self.extra_t_extrapolation_ratio = extra_t_extrapolation_ratio
self.rope_enable_fps_modulation = rope_enable_fps_modulation
self.build_pos_embed(device=device, dtype=dtype)
self.use_adaln_lora = use_adaln_lora
self.adaln_lora_dim = adaln_lora_dim
self.t_embedder = nn.Sequential(
Timesteps(model_channels),
TimestepEmbedding(model_channels, model_channels, use_adaln_lora=use_adaln_lora, device=device, dtype=dtype, operations=operations,),
)
in_channels = in_channels + 1 if concat_padding_mask else in_channels
self.x_embedder = PatchEmbed(
spatial_patch_size=patch_spatial,
temporal_patch_size=patch_temporal,
in_channels=in_channels,
out_channels=model_channels,
device=device, dtype=dtype, operations=operations,
)
self.blocks = nn.ModuleList(
[
Block(
x_dim=model_channels,
context_dim=crossattn_emb_channels,
num_heads=num_heads,
mlp_ratio=mlp_ratio,
use_adaln_lora=use_adaln_lora,
adaln_lora_dim=adaln_lora_dim,
device=device, dtype=dtype, operations=operations,
)
for _ in range(num_blocks)
]
)
self.final_layer = FinalLayer(
hidden_size=self.model_channels,
spatial_patch_size=self.patch_spatial,
temporal_patch_size=self.patch_temporal,
out_channels=self.out_channels,
use_adaln_lora=self.use_adaln_lora,
adaln_lora_dim=self.adaln_lora_dim,
device=device, dtype=dtype, operations=operations,
)
self.t_embedding_norm = operations.RMSNorm(model_channels, eps=1e-6, device=device, dtype=dtype)
def build_pos_embed(self, device=None, dtype=None) -> None:
if self.pos_emb_cls == "rope3d":
cls_type = VideoRopePosition3DEmb
else:
raise ValueError(f"Unknown pos_emb_cls {self.pos_emb_cls}")
logging.debug(f"Building positional embedding with {self.pos_emb_cls} class, impl {cls_type}")
kwargs = dict(
model_channels=self.model_channels,
len_h=self.max_img_h // self.patch_spatial,
len_w=self.max_img_w // self.patch_spatial,
len_t=self.max_frames // self.patch_temporal,
max_fps=self.max_fps,
min_fps=self.min_fps,
is_learnable=self.pos_emb_learnable,
interpolation=self.pos_emb_interpolation,
head_dim=self.model_channels // self.num_heads,
h_extrapolation_ratio=self.rope_h_extrapolation_ratio,
w_extrapolation_ratio=self.rope_w_extrapolation_ratio,
t_extrapolation_ratio=self.rope_t_extrapolation_ratio,
enable_fps_modulation=self.rope_enable_fps_modulation,
device=device,
)
self.pos_embedder = cls_type(
**kwargs, # type: ignore
)
if self.extra_per_block_abs_pos_emb:
kwargs["h_extrapolation_ratio"] = self.extra_h_extrapolation_ratio
kwargs["w_extrapolation_ratio"] = self.extra_w_extrapolation_ratio
kwargs["t_extrapolation_ratio"] = self.extra_t_extrapolation_ratio
kwargs["device"] = device
kwargs["dtype"] = dtype
self.extra_pos_embedder = LearnablePosEmbAxis(
**kwargs, # type: ignore
)
def prepare_embedded_sequence(
self,
x_B_C_T_H_W: torch.Tensor,
fps: Optional[torch.Tensor] = None,
padding_mask: Optional[torch.Tensor] = None,
) -> Tuple[torch.Tensor, Optional[torch.Tensor], Optional[torch.Tensor]]:
"""
Prepares an embedded sequence tensor by applying positional embeddings and handling padding masks.
Args:
x_B_C_T_H_W (torch.Tensor): video
fps (Optional[torch.Tensor]): Frames per second tensor to be used for positional embedding when required.
If None, a default value (`self.base_fps`) will be used.
padding_mask (Optional[torch.Tensor]): current it is not used
Returns:
Tuple[torch.Tensor, Optional[torch.Tensor]]:
- A tensor of shape (B, T, H, W, D) with the embedded sequence.
- An optional positional embedding tensor, returned only if the positional embedding class
(`self.pos_emb_cls`) includes 'rope'. Otherwise, None.
Notes:
- If `self.concat_padding_mask` is True, a padding mask channel is concatenated to the input tensor.
- The method of applying positional embeddings depends on the value of `self.pos_emb_cls`.
- If 'rope' is in `self.pos_emb_cls` (case insensitive), the positional embeddings are generated using
the `self.pos_embedder` with the shape [T, H, W].
- If "fps_aware" is in `self.pos_emb_cls`, the positional embeddings are generated using the
`self.pos_embedder` with the fps tensor.
- Otherwise, the positional embeddings are generated without considering fps.
"""
if self.concat_padding_mask:
if padding_mask is None:
padding_mask = torch.zeros(x_B_C_T_H_W.shape[0], 1, x_B_C_T_H_W.shape[3], x_B_C_T_H_W.shape[4], dtype=x_B_C_T_H_W.dtype, device=x_B_C_T_H_W.device)
else:
padding_mask = transforms.functional.resize(
padding_mask, list(x_B_C_T_H_W.shape[-2:]), interpolation=transforms.InterpolationMode.NEAREST
)
x_B_C_T_H_W = torch.cat(
[x_B_C_T_H_W, padding_mask.unsqueeze(1).repeat(1, 1, x_B_C_T_H_W.shape[2], 1, 1)], dim=1
)
x_B_T_H_W_D = self.x_embedder(x_B_C_T_H_W)
if self.extra_per_block_abs_pos_emb:
extra_pos_emb = self.extra_pos_embedder(x_B_T_H_W_D, fps=fps, device=x_B_C_T_H_W.device, dtype=x_B_C_T_H_W.dtype)
else:
extra_pos_emb = None
if "rope" in self.pos_emb_cls.lower():
return x_B_T_H_W_D, self.pos_embedder(x_B_T_H_W_D, fps=fps, device=x_B_C_T_H_W.device), extra_pos_emb
x_B_T_H_W_D = x_B_T_H_W_D + self.pos_embedder(x_B_T_H_W_D, device=x_B_C_T_H_W.device) # [B, T, H, W, D]
return x_B_T_H_W_D, None, extra_pos_emb
def unpatchify(self, x_B_T_H_W_M: torch.Tensor) -> torch.Tensor:
x_B_C_Tt_Hp_Wp = rearrange(
x_B_T_H_W_M,
"B T H W (p1 p2 t C) -> B C (T t) (H p1) (W p2)",
p1=self.patch_spatial,
p2=self.patch_spatial,
t=self.patch_temporal,
)
return x_B_C_Tt_Hp_Wp
def forward(
self,
x: torch.Tensor,
timesteps: torch.Tensor,
context: torch.Tensor,
fps: Optional[torch.Tensor] = None,
padding_mask: Optional[torch.Tensor] = None,
**kwargs,
):
x_B_C_T_H_W = x
timesteps_B_T = timesteps
crossattn_emb = context
"""
Args:
x: (B, C, T, H, W) tensor of spatial-temp inputs
timesteps: (B, ) tensor of timesteps
crossattn_emb: (B, N, D) tensor of cross-attention embeddings
"""
x_B_T_H_W_D, rope_emb_L_1_1_D, extra_pos_emb_B_T_H_W_D_or_T_H_W_B_D = self.prepare_embedded_sequence(
x_B_C_T_H_W,
fps=fps,
padding_mask=padding_mask,
)
if timesteps_B_T.ndim == 1:
timesteps_B_T = timesteps_B_T.unsqueeze(1)
t_embedding_B_T_D, adaln_lora_B_T_3D = self.t_embedder[1](self.t_embedder[0](timesteps_B_T).to(x_B_T_H_W_D.dtype))
t_embedding_B_T_D = self.t_embedding_norm(t_embedding_B_T_D)
# for logging purpose
affline_scale_log_info = {}
affline_scale_log_info["t_embedding_B_T_D"] = t_embedding_B_T_D.detach()
self.affline_scale_log_info = affline_scale_log_info
self.affline_emb = t_embedding_B_T_D
self.crossattn_emb = crossattn_emb
if extra_pos_emb_B_T_H_W_D_or_T_H_W_B_D is not None:
assert (
x_B_T_H_W_D.shape == extra_pos_emb_B_T_H_W_D_or_T_H_W_B_D.shape
), f"{x_B_T_H_W_D.shape} != {extra_pos_emb_B_T_H_W_D_or_T_H_W_B_D.shape}"
block_kwargs = {
"rope_emb_L_1_1_D": rope_emb_L_1_1_D.unsqueeze(1).unsqueeze(0),
"adaln_lora_B_T_3D": adaln_lora_B_T_3D,
"extra_per_block_pos_emb": extra_pos_emb_B_T_H_W_D_or_T_H_W_B_D,
}
for block in self.blocks:
x_B_T_H_W_D = block(
x_B_T_H_W_D,
t_embedding_B_T_D,
crossattn_emb,
**block_kwargs,
)
x_B_T_H_W_O = self.final_layer(x_B_T_H_W_D, t_embedding_B_T_D, adaln_lora_B_T_3D=adaln_lora_B_T_3D)
x_B_C_Tt_Hp_Wp = self.unpatchify(x_B_T_H_W_O)
return x_B_C_Tt_Hp_Wp

5
comfy/ldm/flux/controlnet.py
View File

@ -121,6 +121,9 @@ class ControlNetFlux(Flux):
if img.ndim != 3 or txt.ndim != 3:
raise ValueError("Input img and txt tensors must have 3 dimensions.")
if y is None:
y = torch.zeros((img.shape[0], self.params.vec_in_dim), device=img.device, dtype=img.dtype)
# running on sequences img
img = self.img_in(img)
@ -174,7 +177,7 @@ class ControlNetFlux(Flux):
out["output"] = out_output[:self.main_model_single]
return out
def forward(self, x, timesteps, context, y, guidance=None, hint=None, **kwargs):
def forward(self, x, timesteps, context, y=None, guidance=None, hint=None, **kwargs):
patch_size = 2
if self.latent_input:
hint = comfy.ldm.common_dit.pad_to_patch_size(hint, (patch_size, patch_size))

9
comfy/ldm/flux/model.py
View File

@ -101,6 +101,10 @@ class Flux(nn.Module):
transformer_options={},
attn_mask: Tensor = None,
) -> Tensor:
if y is None:
y = torch.zeros((img.shape[0], self.params.vec_in_dim), device=img.device, dtype=img.dtype)
patches_replace = transformer_options.get("patches_replace", {})
if img.ndim != 3 or txt.ndim != 3:
raise ValueError("Input img and txt tensors must have 3 dimensions.")
@ -155,6 +159,9 @@ class Flux(nn.Module):
if add is not None:
img += add
if img.dtype == torch.float16:
img = torch.nan_to_num(img, nan=0.0, posinf=65504, neginf=-65504)
img = torch.cat((txt, img), 1)
for i, block in enumerate(self.single_blocks):
@ -188,7 +195,7 @@ class Flux(nn.Module):
img = self.final_layer(img, vec) # (N, T, patch_size ** 2 * out_channels)
return img
def forward(self, x, timestep, context, y, guidance=None, control=None, transformer_options={}, **kwargs):
def forward(self, x, timestep, context, y=None, guidance=None, control=None, transformer_options={}, **kwargs):
bs, c, h, w = x.shape
patch_size = self.patch_size
x = comfy.ldm.common_dit.pad_to_patch_size(x, (patch_size, patch_size))

21
comfy/ldm/hunyuan_video/model.py
View File

@ -228,6 +228,7 @@ class HunyuanVideo(nn.Module):
y: Tensor,
guidance: Tensor = None,
guiding_frame_index=None,
ref_latent=None,
control=None,
transformer_options={},
) -> Tensor:
@ -238,6 +239,14 @@ class HunyuanVideo(nn.Module):
img = self.img_in(img)
vec = self.time_in(timestep_embedding(timesteps, 256, time_factor=1.0).to(img.dtype))
if ref_latent is not None:
ref_latent_ids = self.img_ids(ref_latent)
ref_latent = self.img_in(ref_latent)
img = torch.cat([ref_latent, img], dim=-2)
ref_latent_ids[..., 0] = -1
ref_latent_ids[..., 2] += (initial_shape[-1] // self.patch_size[-1])
img_ids = torch.cat([ref_latent_ids, img_ids], dim=-2)
if guiding_frame_index is not None:
token_replace_vec = self.time_in(timestep_embedding(guiding_frame_index, 256, time_factor=1.0))
vec_ = self.vector_in(y[:, :self.params.vec_in_dim])
@ -313,6 +322,8 @@ class HunyuanVideo(nn.Module):
img[:, : img_len] += add
img = img[:, : img_len]
if ref_latent is not None:
img = img[:, ref_latent.shape[1]:]
img = self.final_layer(img, vec, modulation_dims=modulation_dims) # (N, T, patch_size ** 2 * out_channels)
@ -324,7 +335,7 @@ class HunyuanVideo(nn.Module):
img = img.reshape(initial_shape[0], self.out_channels, initial_shape[2], initial_shape[3], initial_shape[4])
return img
def forward(self, x, timestep, context, y, guidance=None, attention_mask=None, guiding_frame_index=None, control=None, transformer_options={}, **kwargs):
def img_ids(self, x):
bs, c, t, h, w = x.shape
patch_size = self.patch_size
t_len = ((t + (patch_size[0] // 2)) // patch_size[0])
@ -334,7 +345,11 @@ class HunyuanVideo(nn.Module):
img_ids[:, :, :, 0] = img_ids[:, :, :, 0] + torch.linspace(0, t_len - 1, steps=t_len, device=x.device, dtype=x.dtype).reshape(-1, 1, 1)
img_ids[:, :, :, 1] = img_ids[:, :, :, 1] + torch.linspace(0, h_len - 1, steps=h_len, device=x.device, dtype=x.dtype).reshape(1, -1, 1)
img_ids[:, :, :, 2] = img_ids[:, :, :, 2] + torch.linspace(0, w_len - 1, steps=w_len, device=x.device, dtype=x.dtype).reshape(1, 1, -1)
img_ids = repeat(img_ids, "t h w c -> b (t h w) c", b=bs)
return repeat(img_ids, "t h w c -> b (t h w) c", b=bs)
def forward(self, x, timestep, context, y, guidance=None, attention_mask=None, guiding_frame_index=None, ref_latent=None, control=None, transformer_options={}, **kwargs):
bs, c, t, h, w = x.shape
img_ids = self.img_ids(x)
txt_ids = torch.zeros((bs, context.shape[1], 3), device=x.device, dtype=x.dtype)
out = self.forward_orig(x, img_ids, context, txt_ids, attention_mask, timestep, y, guidance, guiding_frame_index, control, transformer_options)
out = self.forward_orig(x, img_ids, context, txt_ids, attention_mask, timestep, y, guidance, guiding_frame_index, ref_latent, control=control, transformer_options=transformer_options)
return out

4
comfy/ldm/lightricks/model.py
View File

@ -261,8 +261,8 @@ class CrossAttention(nn.Module):
self.heads = heads
self.dim_head = dim_head
self.q_norm = operations.RMSNorm(inner_dim, dtype=dtype, device=device)
self.k_norm = operations.RMSNorm(inner_dim, dtype=dtype, device=device)
self.q_norm = operations.RMSNorm(inner_dim, eps=1e-5, dtype=dtype, device=device)
self.k_norm = operations.RMSNorm(inner_dim, eps=1e-5, dtype=dtype, device=device)
self.to_q = operations.Linear(query_dim, inner_dim, bias=True, dtype=dtype, device=device)
self.to_k = operations.Linear(context_dim, inner_dim, bias=True, dtype=dtype, device=device)

13
comfy/ldm/modules/attention.py
View File

@ -20,8 +20,11 @@ if model_management.xformers_enabled():
if model_management.sage_attention_enabled():
try:
from sageattention import sageattn
except ModuleNotFoundError:
logging.error(f"\n\nTo use the `--use-sage-attention` feature, the `sageattention` package must be installed first.\ncommand:\n\t{sys.executable} -m pip install sageattention")
except ModuleNotFoundError as e:
if e.name == "sageattention":
logging.error(f"\n\nTo use the `--use-sage-attention` feature, the `sageattention` package must be installed first.\ncommand:\n\t{sys.executable} -m pip install sageattention")
else:
raise e
exit(-1)
if model_management.flash_attention_enabled():
@ -750,7 +753,7 @@ class BasicTransformerBlock(nn.Module):
for p in patch:
n = p(n, extra_options)
x += n
x = n + x
if "middle_patch" in transformer_patches:
patch = transformer_patches["middle_patch"]
for p in patch:
@ -790,12 +793,12 @@ class BasicTransformerBlock(nn.Module):
for p in patch:
n = p(n, extra_options)
x += n
x = n + x
if self.is_res:
x_skip = x
x = self.ff(self.norm3(x))
if self.is_res:
x += x_skip
x = x_skip + x
return x

162
comfy/ldm/wan/model.py
View File

@ -247,6 +247,60 @@ class VaceWanAttentionBlock(WanAttentionBlock):
return c_skip, c
class WanCamAdapter(nn.Module):
def __init__(self, in_dim, out_dim, kernel_size, stride, num_residual_blocks=1, operation_settings={}):
super(WanCamAdapter, self).__init__()
# Pixel Unshuffle: reduce spatial dimensions by a factor of 8
self.pixel_unshuffle = nn.PixelUnshuffle(downscale_factor=8)
# Convolution: reduce spatial dimensions by a factor
# of 2 (without overlap)
self.conv = operation_settings.get("operations").Conv2d(in_dim * 64, out_dim, kernel_size=kernel_size, stride=stride, padding=0, device=operation_settings.get("device"), dtype=operation_settings.get("dtype"))
# Residual blocks for feature extraction
self.residual_blocks = nn.Sequential(
*[WanCamResidualBlock(out_dim, operation_settings = operation_settings) for _ in range(num_residual_blocks)]
)
def forward(self, x):
# Reshape to merge the frame dimension into batch
bs, c, f, h, w = x.size()
x = x.permute(0, 2, 1, 3, 4).contiguous().view(bs * f, c, h, w)
# Pixel Unshuffle operation
x_unshuffled = self.pixel_unshuffle(x)
# Convolution operation
x_conv = self.conv(x_unshuffled)
# Feature extraction with residual blocks
out = self.residual_blocks(x_conv)
# Reshape to restore original bf dimension
out = out.view(bs, f, out.size(1), out.size(2), out.size(3))
# Permute dimensions to reorder (if needed), e.g., swap channels and feature frames
out = out.permute(0, 2, 1, 3, 4)
return out
class WanCamResidualBlock(nn.Module):
def __init__(self, dim, operation_settings={}):
super(WanCamResidualBlock, self).__init__()
self.conv1 = operation_settings.get("operations").Conv2d(dim, dim, kernel_size=3, padding=1, device=operation_settings.get("device"), dtype=operation_settings.get("dtype"))
self.relu = nn.ReLU(inplace=True)
self.conv2 = operation_settings.get("operations").Conv2d(dim, dim, kernel_size=3, padding=1, device=operation_settings.get("device"), dtype=operation_settings.get("dtype"))
def forward(self, x):
residual = x
out = self.relu(self.conv1(x))
out = self.conv2(out)
out += residual
return out
class Head(nn.Module):
def __init__(self, dim, out_dim, patch_size, eps=1e-6, operation_settings={}):
@ -485,13 +539,20 @@ class WanModel(torch.nn.Module):
x = self.unpatchify(x, grid_sizes)
return x
def forward(self, x, timestep, context, clip_fea=None, transformer_options={}, **kwargs):
def forward(self, x, timestep, context, clip_fea=None, time_dim_concat=None, transformer_options={}, **kwargs):
bs, c, t, h, w = x.shape
x = comfy.ldm.common_dit.pad_to_patch_size(x, self.patch_size)
patch_size = self.patch_size
t_len = ((t + (patch_size[0] // 2)) // patch_size[0])
h_len = ((h + (patch_size[1] // 2)) // patch_size[1])
w_len = ((w + (patch_size[2] // 2)) // patch_size[2])
if time_dim_concat is not None:
time_dim_concat = comfy.ldm.common_dit.pad_to_patch_size(time_dim_concat, self.patch_size)
x = torch.cat([x, time_dim_concat], dim=2)
t_len = ((x.shape[2] + (patch_size[0] // 2)) // patch_size[0])
img_ids = torch.zeros((t_len, h_len, w_len, 3), device=x.device, dtype=x.dtype)
img_ids[:, :, :, 0] = img_ids[:, :, :, 0] + torch.linspace(0, t_len - 1, steps=t_len, device=x.device, dtype=x.dtype).reshape(-1, 1, 1)
img_ids[:, :, :, 1] = img_ids[:, :, :, 1] + torch.linspace(0, h_len - 1, steps=h_len, device=x.device, dtype=x.dtype).reshape(1, -1, 1)
@ -581,7 +642,7 @@ class VaceWanModel(WanModel):
t,
context,
vace_context,
vace_strength=1.0,
vace_strength,
clip_fea=None,
freqs=None,
transformer_options={},
@ -607,8 +668,11 @@ class VaceWanModel(WanModel):
context = torch.concat([context_clip, context], dim=1)
context_img_len = clip_fea.shape[-2]
orig_shape = list(vace_context.shape)
vace_context = vace_context.movedim(0, 1).reshape([-1] + orig_shape[2:])
c = self.vace_patch_embedding(vace_context.float()).to(vace_context.dtype)
c = c.flatten(2).transpose(1, 2)
c = list(c.split(orig_shape[0], dim=0))
# arguments
x_orig = x
@ -628,8 +692,9 @@ class VaceWanModel(WanModel):
ii = self.vace_layers_mapping.get(i, None)
if ii is not None:
c_skip, c = self.vace_blocks[ii](c, x=x_orig, e=e0, freqs=freqs, context=context, context_img_len=context_img_len)
x += c_skip * vace_strength
for iii in range(len(c)):
c_skip, c[iii] = self.vace_blocks[ii](c[iii], x=x_orig, e=e0, freqs=freqs, context=context, context_img_len=context_img_len)
x += c_skip * vace_strength[iii]
del c_skip
# head
x = self.head(x, e)
@ -637,3 +702,92 @@ class VaceWanModel(WanModel):
# unpatchify
x = self.unpatchify(x, grid_sizes)
return x
class CameraWanModel(WanModel):
r"""
Wan diffusion backbone supporting both text-to-video and image-to-video.
"""
def __init__(self,
model_type='camera',
patch_size=(1, 2, 2),
text_len=512,
in_dim=16,
dim=2048,
ffn_dim=8192,
freq_dim=256,
text_dim=4096,
out_dim=16,
num_heads=16,
num_layers=32,
window_size=(-1, -1),
qk_norm=True,
cross_attn_norm=True,
eps=1e-6,
flf_pos_embed_token_number=None,
image_model=None,
in_dim_control_adapter=24,
device=None,
dtype=None,
operations=None,
):
super().__init__(model_type='i2v', patch_size=patch_size, text_len=text_len, in_dim=in_dim, dim=dim, ffn_dim=ffn_dim, freq_dim=freq_dim, text_dim=text_dim, out_dim=out_dim, num_heads=num_heads, num_layers=num_layers, window_size=window_size, qk_norm=qk_norm, cross_attn_norm=cross_attn_norm, eps=eps, flf_pos_embed_token_number=flf_pos_embed_token_number, image_model=image_model, device=device, dtype=dtype, operations=operations)
operation_settings = {"operations": operations, "device": device, "dtype": dtype}
self.control_adapter = WanCamAdapter(in_dim_control_adapter, dim, kernel_size=patch_size[1:], stride=patch_size[1:], operation_settings=operation_settings)
def forward_orig(
self,
x,
t,
context,
clip_fea=None,
freqs=None,
camera_conditions = None,
transformer_options={},
**kwargs,
):
# embeddings
x = self.patch_embedding(x.float()).to(x.dtype)
if self.control_adapter is not None and camera_conditions is not None:
x_camera = self.control_adapter(camera_conditions).to(x.dtype)
x = x + x_camera
grid_sizes = x.shape[2:]
x = x.flatten(2).transpose(1, 2)
# time embeddings
e = self.time_embedding(
sinusoidal_embedding_1d(self.freq_dim, t).to(dtype=x[0].dtype))
e0 = self.time_projection(e).unflatten(1, (6, self.dim))
# context
context = self.text_embedding(context)
context_img_len = None
if clip_fea is not None:
if self.img_emb is not None:
context_clip = self.img_emb(clip_fea) # bs x 257 x dim
context = torch.concat([context_clip, context], dim=1)
context_img_len = clip_fea.shape[-2]
patches_replace = transformer_options.get("patches_replace", {})
blocks_replace = patches_replace.get("dit", {})
for i, block in enumerate(self.blocks):
if ("double_block", i) in blocks_replace:
def block_wrap(args):
out = {}
out["img"] = block(args["img"], context=args["txt"], e=args["vec"], freqs=args["pe"], context_img_len=context_img_len)
return out
out = blocks_replace[("double_block", i)]({"img": x, "txt": context, "vec": e0, "pe": freqs}, {"original_block": block_wrap})
x = out["img"]
else:
x = block(x, e=e0, freqs=freqs, context=context, context_img_len=context_img_len)
# head
x = self.head(x, e)
# unpatchify
x = self.unpatchify(x, grid_sizes)
return x

11
comfy/lora.py
View File

@ -283,8 +283,15 @@ def model_lora_keys_unet(model, key_map={}):
for k in sdk:
if k.startswith("diffusion_model."):
if k.endswith(".weight"):
key_lora = k[len("diffusion_model."):-len(".weight")].replace(".", "_")
key_map["lycoris_{}".format(key_lora)] = k #SimpleTuner lycoris format
key_lora = k[len("diffusion_model."):-len(".weight")]
key_map["lycoris_{}".format(key_lora.replace(".", "_"))] = k #SimpleTuner lycoris format
key_map["transformer.{}".format(key_lora)] = k #SimpleTuner regular format
if isinstance(model, comfy.model_base.ACEStep):
for k in sdk:
if k.startswith("diffusion_model.") and k.endswith(".weight"): #Official ACE step lora format
key_lora = k[len("diffusion_model."):-len(".weight")]
key_map["{}".format(key_lora)] = k
return key_map

141
comfy/model_base.py
View File

@ -34,6 +34,7 @@ import comfy.ldm.flux.model
import comfy.ldm.lightricks.model
import comfy.ldm.hunyuan_video.model
import comfy.ldm.cosmos.model
import comfy.ldm.cosmos.predict2
import comfy.ldm.lumina.model
import comfy.ldm.wan.model
import comfy.ldm.hunyuan3d.model
@ -48,6 +49,7 @@ import comfy.ops
from enum import Enum
from . import utils
import comfy.latent_formats
import comfy.model_sampling
import math
from typing import TYPE_CHECKING
if TYPE_CHECKING:
@ -63,38 +65,39 @@ class ModelType(Enum):
V_PREDICTION_CONTINUOUS = 7
FLUX = 8
IMG_TO_IMG = 9
from comfy.model_sampling import EPS, V_PREDICTION, EDM, ModelSamplingDiscrete, ModelSamplingContinuousEDM, StableCascadeSampling, ModelSamplingContinuousV
FLOW_COSMOS = 10
def model_sampling(model_config, model_type):
s = ModelSamplingDiscrete
s = comfy.model_sampling.ModelSamplingDiscrete
if model_type == ModelType.EPS:
c = EPS
c = comfy.model_sampling.EPS
elif model_type == ModelType.V_PREDICTION:
c = V_PREDICTION
c = comfy.model_sampling.V_PREDICTION
elif model_type == ModelType.V_PREDICTION_EDM:
c = V_PREDICTION
s = ModelSamplingContinuousEDM
c = comfy.model_sampling.V_PREDICTION
s = comfy.model_sampling.ModelSamplingContinuousEDM
elif model_type == ModelType.FLOW:
c = comfy.model_sampling.CONST
s = comfy.model_sampling.ModelSamplingDiscreteFlow
elif model_type == ModelType.STABLE_CASCADE:
c = EPS
s = StableCascadeSampling
c = comfy.model_sampling.EPS
s = comfy.model_sampling.StableCascadeSampling
elif model_type == ModelType.EDM:
c = EDM
s = ModelSamplingContinuousEDM
c = comfy.model_sampling.EDM
s = comfy.model_sampling.ModelSamplingContinuousEDM
elif model_type == ModelType.V_PREDICTION_CONTINUOUS:
c = V_PREDICTION
s = ModelSamplingContinuousV
c = comfy.model_sampling.V_PREDICTION
s = comfy.model_sampling.ModelSamplingContinuousV
elif model_type == ModelType.FLUX:
c = comfy.model_sampling.CONST
s = comfy.model_sampling.ModelSamplingFlux
elif model_type == ModelType.IMG_TO_IMG:
c = comfy.model_sampling.IMG_TO_IMG
elif model_type == ModelType.FLOW_COSMOS:
c = comfy.model_sampling.COSMOS_RFLOW
s = comfy.model_sampling.ModelSamplingCosmosRFlow
class ModelSampling(s, c):
pass
@ -102,6 +105,13 @@ def model_sampling(model_config, model_type):
return ModelSampling(model_config)
def convert_tensor(extra, dtype):
if hasattr(extra, "dtype"):
if extra.dtype != torch.int and extra.dtype != torch.long:
extra = extra.to(dtype)
return extra
class BaseModel(torch.nn.Module):
def __init__(self, model_config, model_type=ModelType.EPS, device=None, unet_model=UNetModel):
super().__init__()
@ -135,6 +145,7 @@ class BaseModel(torch.nn.Module):
logging.info("model_type {}".format(model_type.name))
logging.debug("adm {}".format(self.adm_channels))
self.memory_usage_factor = model_config.memory_usage_factor
self.memory_usage_factor_conds = ()
def apply_model(self, x, t, c_concat=None, c_crossattn=None, control=None, transformer_options={}, **kwargs):
return comfy.patcher_extension.WrapperExecutor.new_class_executor(
@ -164,9 +175,14 @@ class BaseModel(torch.nn.Module):
extra_conds = {}
for o in kwargs:
extra = kwargs[o]
if hasattr(extra, "dtype"):
if extra.dtype != torch.int and extra.dtype != torch.long:
extra = extra.to(dtype)
extra = convert_tensor(extra, dtype)
elif isinstance(extra, list):
ex = []
for ext in extra:
ex.append(convert_tensor(ext, dtype))
extra = ex
extra_conds[o] = extra
t = self.process_timestep(t, x=x, **extra_conds)
@ -325,19 +341,28 @@ class BaseModel(torch.nn.Module):
def scale_latent_inpaint(self, sigma, noise, latent_image, **kwargs):
return self.model_sampling.noise_scaling(sigma.reshape([sigma.shape[0]] + [1] * (len(noise.shape) - 1)), noise, latent_image)
def memory_required(self, input_shape):
def memory_required(self, input_shape, cond_shapes={}):
input_shapes = [input_shape]
for c in self.memory_usage_factor_conds:
shape = cond_shapes.get(c, None)
if shape is not None and len(shape) > 0:
input_shapes += shape
if comfy.model_management.xformers_enabled() or comfy.model_management.pytorch_attention_flash_attention():
dtype = self.get_dtype()
if self.manual_cast_dtype is not None:
dtype = self.manual_cast_dtype
#TODO: this needs to be tweaked
area = input_shape[0] * math.prod(input_shape[2:])
area = sum(map(lambda input_shape: input_shape[0] * math.prod(input_shape[2:]), input_shapes))
return (area * comfy.model_management.dtype_size(dtype) * 0.01 * self.memory_usage_factor) * (1024 * 1024)
else:
#TODO: this formula might be too aggressive since I tweaked the sub-quad and split algorithms to use less memory.
area = input_shape[0] * math.prod(input_shape[2:])
area = sum(map(lambda input_shape: input_shape[0] * math.prod(input_shape[2:]), input_shapes))
return (area * 0.15 * self.memory_usage_factor) * (1024 * 1024)
def extra_conds_shapes(self, **kwargs):
return {}
def unclip_adm(unclip_conditioning, device, noise_augmentor, noise_augment_merge=0.0, seed=None):
adm_inputs = []
@ -924,6 +949,10 @@ class HunyuanVideo(BaseModel):
if guiding_frame_index is not None:
out['guiding_frame_index'] = comfy.conds.CONDRegular(torch.FloatTensor([guiding_frame_index]))
ref_latent = kwargs.get("ref_latent", None)
if ref_latent is not None:
out['ref_latent'] = comfy.conds.CONDRegular(self.process_latent_in(ref_latent))
return out
def scale_latent_inpaint(self, latent_image, **kwargs):
@ -972,6 +1001,43 @@ class CosmosVideo(BaseModel):
latent_image = self.model_sampling.calculate_input(torch.tensor([sigma_noise_augmentation], device=latent_image.device, dtype=latent_image.dtype), latent_image)
return latent_image * ((sigma ** 2 + self.model_sampling.sigma_data ** 2) ** 0.5)
class CosmosPredict2(BaseModel):
def __init__(self, model_config, model_type=ModelType.FLOW_COSMOS, image_to_video=False, device=None):
super().__init__(model_config, model_type, device=device, unet_model=comfy.ldm.cosmos.predict2.MiniTrainDIT)
self.image_to_video = image_to_video
if self.image_to_video:
self.concat_keys = ("mask_inverted",)
def extra_conds(self, **kwargs):
out = super().extra_conds(**kwargs)
cross_attn = kwargs.get("cross_attn", None)
if cross_attn is not None:
out['c_crossattn'] = comfy.conds.CONDRegular(cross_attn)
denoise_mask = kwargs.get("concat_mask", kwargs.get("denoise_mask", None))
if denoise_mask is not None:
out["denoise_mask"] = comfy.conds.CONDRegular(denoise_mask)
out['fps'] = comfy.conds.CONDConstant(kwargs.get("frame_rate", None))
return out
def process_timestep(self, timestep, x, denoise_mask=None, **kwargs):
if denoise_mask is None:
return timestep
condition_video_mask_B_1_T_1_1 = denoise_mask.mean(dim=[1, 3, 4], keepdim=True)
c_noise_B_1_T_1_1 = 0.0 * (1.0 - condition_video_mask_B_1_T_1_1) + timestep.reshape(timestep.shape[0], 1, 1, 1, 1) * condition_video_mask_B_1_T_1_1
out = c_noise_B_1_T_1_1.squeeze(dim=[1, 3, 4])
return out
def scale_latent_inpaint(self, sigma, noise, latent_image, **kwargs):
sigma = sigma.reshape([sigma.shape[0]] + [1] * (len(noise.shape) - 1))
sigma_noise_augmentation = 0 #TODO
if sigma_noise_augmentation != 0:
latent_image = latent_image + noise
latent_image = self.model_sampling.calculate_input(torch.tensor([sigma_noise_augmentation], device=latent_image.device, dtype=latent_image.dtype), latent_image)
sigma = (sigma / (sigma + 1))
return latent_image / (1.0 - sigma)
class Lumina2(BaseModel):
def __init__(self, model_config, model_type=ModelType.FLOW, device=None):
super().__init__(model_config, model_type, device=device, unet_model=comfy.ldm.lumina.model.NextDiT)
@ -1043,6 +1109,11 @@ class WAN21(BaseModel):
clip_vision_output = kwargs.get("clip_vision_output", None)
if clip_vision_output is not None:
out['clip_fea'] = comfy.conds.CONDRegular(clip_vision_output.penultimate_hidden_states)
time_dim_concat = kwargs.get("time_dim_concat", None)
if time_dim_concat is not None:
out['time_dim_concat'] = comfy.conds.CONDRegular(self.process_latent_in(time_dim_concat))
return out
@ -1058,23 +1129,39 @@ class WAN21_Vace(WAN21):
vace_frames = kwargs.get("vace_frames", None)
if vace_frames is None:
noise_shape[1] = 32
vace_frames = torch.zeros(noise_shape, device=noise.device, dtype=noise.dtype)
for i in range(0, vace_frames.shape[1], 16):
vace_frames = vace_frames.clone()
vace_frames[:, i:i + 16] = self.process_latent_in(vace_frames[:, i:i + 16])
vace_frames = [torch.zeros(noise_shape, device=noise.device, dtype=noise.dtype)]
mask = kwargs.get("vace_mask", None)
if mask is None:
noise_shape[1] = 64
mask = torch.ones(noise_shape, device=noise.device, dtype=noise.dtype)
mask = [torch.ones(noise_shape, device=noise.device, dtype=noise.dtype)] * len(vace_frames)
out['vace_context'] = comfy.conds.CONDRegular(torch.cat([vace_frames.to(noise), mask.to(noise)], dim=1))
vace_frames_out = []
for j in range(len(vace_frames)):
vf = vace_frames[j].clone()
for i in range(0, vf.shape[1], 16):
vf[:, i:i + 16] = self.process_latent_in(vf[:, i:i + 16])
vf = torch.cat([vf, mask[j]], dim=1)
vace_frames_out.append(vf)
vace_strength = kwargs.get("vace_strength", 1.0)
vace_frames = torch.stack(vace_frames_out, dim=1)
out['vace_context'] = comfy.conds.CONDRegular(vace_frames)
vace_strength = kwargs.get("vace_strength", [1.0] * len(vace_frames_out))
out['vace_strength'] = comfy.conds.CONDConstant(vace_strength)
return out
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)
self.image_to_video = image_to_video
def extra_conds(self, **kwargs):
out = super().extra_conds(**kwargs)
camera_conditions = kwargs.get("camera_conditions", None)
if camera_conditions is not None:
out['camera_conditions'] = comfy.conds.CONDRegular(camera_conditions)
return out
class Hunyuan3Dv2(BaseModel):
def __init__(self, model_config, model_type=ModelType.FLOW, device=None):

57
comfy/model_detection.py
View File

@ -361,6 +361,8 @@ def detect_unet_config(state_dict, key_prefix, metadata=None):
dit_config["model_type"] = "vace"
dit_config["vace_in_dim"] = state_dict['{}vace_patch_embedding.weight'.format(key_prefix)].shape[1]
dit_config["vace_layers"] = count_blocks(state_dict_keys, '{}vace_blocks.'.format(key_prefix) + '{}.')
elif '{}control_adapter.conv.weight'.format(key_prefix) in state_dict_keys:
dit_config["model_type"] = "camera"
else:
if '{}img_emb.proj.0.bias'.format(key_prefix) in state_dict_keys:
dit_config["model_type"] = "i2v"
@ -405,6 +407,58 @@ def detect_unet_config(state_dict, key_prefix, metadata=None):
dit_config["text_emb_dim"] = 2048
return dit_config
if '{}blocks.0.mlp.layer1.weight'.format(key_prefix) in state_dict_keys: # Cosmos predict2
dit_config = {}
dit_config["image_model"] = "cosmos_predict2"
dit_config["max_img_h"] = 240
dit_config["max_img_w"] = 240
dit_config["max_frames"] = 128
concat_padding_mask = True
dit_config["in_channels"] = (state_dict['{}x_embedder.proj.1.weight'.format(key_prefix)].shape[1] // 4) - int(concat_padding_mask)
dit_config["out_channels"] = 16
dit_config["patch_spatial"] = 2
dit_config["patch_temporal"] = 1
dit_config["model_channels"] = state_dict['{}x_embedder.proj.1.weight'.format(key_prefix)].shape[0]
dit_config["concat_padding_mask"] = concat_padding_mask
dit_config["crossattn_emb_channels"] = 1024
dit_config["pos_emb_cls"] = "rope3d"
dit_config["pos_emb_learnable"] = True
dit_config["pos_emb_interpolation"] = "crop"
dit_config["min_fps"] = 1
dit_config["max_fps"] = 30
dit_config["use_adaln_lora"] = True
dit_config["adaln_lora_dim"] = 256
if dit_config["model_channels"] == 2048:
dit_config["num_blocks"] = 28
dit_config["num_heads"] = 16
elif dit_config["model_channels"] == 5120:
dit_config["num_blocks"] = 36
dit_config["num_heads"] = 40
if dit_config["in_channels"] == 16:
dit_config["extra_per_block_abs_pos_emb"] = False
dit_config["rope_h_extrapolation_ratio"] = 4.0
dit_config["rope_w_extrapolation_ratio"] = 4.0
dit_config["rope_t_extrapolation_ratio"] = 1.0
elif dit_config["in_channels"] == 17: # img to video
if dit_config["model_channels"] == 2048:
dit_config["extra_per_block_abs_pos_emb"] = False
dit_config["rope_h_extrapolation_ratio"] = 3.0
dit_config["rope_w_extrapolation_ratio"] = 3.0
dit_config["rope_t_extrapolation_ratio"] = 1.0
elif dit_config["model_channels"] == 5120:
dit_config["rope_h_extrapolation_ratio"] = 2.0
dit_config["rope_w_extrapolation_ratio"] = 2.0
dit_config["rope_t_extrapolation_ratio"] = 0.8333333333333334
dit_config["extra_h_extrapolation_ratio"] = 1.0
dit_config["extra_w_extrapolation_ratio"] = 1.0
dit_config["extra_t_extrapolation_ratio"] = 1.0
dit_config["rope_enable_fps_modulation"] = False
return dit_config
if '{}input_blocks.0.0.weight'.format(key_prefix) not in state_dict_keys:
return None
@ -618,6 +672,9 @@ def convert_config(unet_config):
def unet_config_from_diffusers_unet(state_dict, dtype=None):
if "conv_in.weight" not in state_dict:
return None
match = {}
transformer_depth = []

29
comfy/model_management.py
View File

@ -319,14 +319,24 @@ except:
pass
SUPPORT_FP8_OPS = args.supports_fp8_compute
try:
if is_amd():
try:
rocm_version = tuple(map(int, str(torch.version.hip).split(".")[:2]))
except:
rocm_version = (6, -1)
arch = torch.cuda.get_device_properties(get_torch_device()).gcnArchName
logging.info("AMD arch: {}".format(arch))
logging.info("ROCm version: {}".format(rocm_version))
if args.use_split_cross_attention == False and args.use_quad_cross_attention == False:
if torch_version_numeric[0] >= 2 and torch_version_numeric[1] >= 7: # works on 2.6 but doesn't actually seem to improve much
if any((a in arch) for a in ["gfx1100", "gfx1101"]): # TODO: more arches
if torch_version_numeric >= (2, 7): # works on 2.6 but doesn't actually seem to improve much
if any((a in arch) for a in ["gfx90a", "gfx942", "gfx1100", "gfx1101", "gfx1151"]): # TODO: more arches, TODO: gfx1201 and gfx950
ENABLE_PYTORCH_ATTENTION = True
if torch_version_numeric >= (2, 7) and rocm_version >= (6, 4):
if any((a in arch) for a in ["gfx1201", "gfx942", "gfx950"]): # TODO: more arches
SUPPORT_FP8_OPS = True
except:
pass
@ -347,7 +357,7 @@ except:
pass
try:
if torch_version_numeric[0] == 2 and torch_version_numeric[1] >= 5:
if torch_version_numeric >= (2, 5):
torch.backends.cuda.allow_fp16_bf16_reduction_math_sdp(True)
except:
logging.warning("Warning, could not set allow_fp16_bf16_reduction_math_sdp")
@ -723,7 +733,7 @@ def unet_inital_load_device(parameters, dtype):
return torch_dev
cpu_dev = torch.device("cpu")
if DISABLE_SMART_MEMORY:
if DISABLE_SMART_MEMORY or vram_state == VRAMState.NO_VRAM:
return cpu_dev
model_size = dtype_size(dtype) * parameters
@ -1070,7 +1080,7 @@ def pytorch_attention_flash_attention():
global ENABLE_PYTORCH_ATTENTION
if ENABLE_PYTORCH_ATTENTION:
#TODO: more reliable way of checking for flash attention?
if is_nvidia(): #pytorch flash attention only works on Nvidia
if is_nvidia():
return True
if is_intel_xpu():
return True
@ -1086,7 +1096,7 @@ def force_upcast_attention_dtype():
upcast = args.force_upcast_attention
macos_version = mac_version()
if macos_version is not None and ((14, 5) <= macos_version < (16,)): # black image bug on recent versions of macOS
if macos_version is not None and ((14, 5) <= macos_version): # black image bug on recent versions of macOS, I don't think it's ever getting fixed
upcast = True
if upcast:
@ -1285,6 +1295,9 @@ def should_use_bf16(device=None, model_params=0, prioritize_performance=True, ma
return False
def supports_fp8_compute(device=None):
if SUPPORT_FP8_OPS:
return True
if not is_nvidia():
return False
@ -1296,11 +1309,11 @@ def supports_fp8_compute(device=None):
if props.minor < 9:
return False
if torch_version_numeric[0] < 2 or (torch_version_numeric[0] == 2 and torch_version_numeric[1] < 3):
if torch_version_numeric < (2, 3):
return False
if WINDOWS:
if (torch_version_numeric[0] == 2 and torch_version_numeric[1] < 4):
if torch_version_numeric < (2, 4):
return False
return True

19
comfy/model_patcher.py
View File

@ -17,23 +17,26 @@
"""
from __future__ import annotations
from typing import Optional, Callable
import torch
import collections
import copy
import inspect
import logging
import uuid
import collections
import math
import uuid
from typing import Callable, Optional
import torch
import comfy.utils
import comfy.float
import comfy.model_management
import comfy.lora
import comfy.hooks
import comfy.lora
import comfy.model_management
import comfy.patcher_extension
from comfy.patcher_extension import CallbacksMP, WrappersMP, PatcherInjection
import comfy.utils
from comfy.comfy_types import UnetWrapperFunction
from comfy.patcher_extension import CallbacksMP, PatcherInjection, WrappersMP
def string_to_seed(data):
crc = 0xFFFFFFFF

31
comfy/model_sampling.py
View File

@ -77,6 +77,25 @@ class IMG_TO_IMG(X0):
def calculate_input(self, sigma, noise):
return noise
class COSMOS_RFLOW:
def calculate_input(self, sigma, noise):
sigma = (sigma / (sigma + 1))
sigma = sigma.view(sigma.shape[:1] + (1,) * (noise.ndim - 1))
return noise * (1.0 - sigma)
def calculate_denoised(self, sigma, model_output, model_input):
sigma = (sigma / (sigma + 1))
sigma = sigma.view(sigma.shape[:1] + (1,) * (model_output.ndim - 1))
return model_input * (1.0 - sigma) - model_output * sigma
def noise_scaling(self, sigma, noise, latent_image, max_denoise=False):
sigma = sigma.view(sigma.shape[:1] + (1,) * (noise.ndim - 1))
noise = noise * sigma
noise += latent_image
return noise
def inverse_noise_scaling(self, sigma, latent):
return latent
class ModelSamplingDiscrete(torch.nn.Module):
def __init__(self, model_config=None, zsnr=None):
@ -350,3 +369,15 @@ class ModelSamplingFlux(torch.nn.Module):
if percent >= 1.0:
return 0.0
return flux_time_shift(self.shift, 1.0, 1.0 - percent)
class ModelSamplingCosmosRFlow(ModelSamplingContinuousEDM):
def timestep(self, sigma):
return sigma / (sigma + 1)
def sigma(self, timestep):
sigma_max = self.sigma_max
if timestep >= (sigma_max / (sigma_max + 1)):
return sigma_max
return timestep / (1 - timestep)

2
comfy/rmsnorm.py
View File

@ -30,7 +30,7 @@ if RMSNorm is None:
def __init__(
self,
normalized_shape,
eps=None,
eps=1e-6,
elementwise_affine=True,
device=None,
dtype=None,

25
comfy/sampler_helpers.py
View File

@ -1,6 +1,8 @@
from __future__ import annotations
import torch
import uuid
import math
import collections
import comfy.model_management
import comfy.conds
import comfy.model_patcher
@ -147,6 +149,22 @@ def preprocess_multigpu_conds(conds: dict[str, list[dict[str]]], model: ModelPat
curr_cnet = prev_cnet
# potentially handle gligen - since not widely used, ignored for now
def estimate_memory(model, noise_shape, conds):
cond_shapes = collections.defaultdict(list)
cond_shapes_min = {}
for _, cs in conds.items():
for cond in cs:
for k, v in model.model.extra_conds_shapes(**cond).items():
cond_shapes[k].append(v)
if cond_shapes_min.get(k, None) is None:
cond_shapes_min[k] = [v]
elif math.prod(v) > math.prod(cond_shapes_min[k][0]):
cond_shapes_min[k] = [v]
memory_required = model.model.memory_required([noise_shape[0] * 2] + list(noise_shape[1:]), cond_shapes=cond_shapes)
minimum_memory_required = model.model.memory_required([noise_shape[0]] + list(noise_shape[1:]), cond_shapes=cond_shapes_min)
return memory_required, minimum_memory_required
def prepare_sampling(model: ModelPatcher, noise_shape, conds, model_options=None):
executor = comfy.patcher_extension.WrapperExecutor.new_executor(
_prepare_sampling,
@ -160,10 +178,9 @@ def _prepare_sampling(model: ModelPatcher, noise_shape, conds, model_options=Non
models, inference_memory = get_additional_models(conds, model.model_dtype())
models += get_additional_models_from_model_options(model_options)
models += model.get_nested_additional_models() # TODO: does this require inference_memory update?
memory_required = model.memory_required([noise_shape[0] * 2] + list(noise_shape[1:])) + inference_memory
minimum_memory_required = model.memory_required([noise_shape[0]] + list(noise_shape[1:])) + inference_memory
comfy.model_management.load_models_gpu([model] + models, memory_required=memory_required, minimum_memory_required=minimum_memory_required)
real_model: BaseModel = model.model
memory_required, minimum_memory_required = estimate_memory(model, noise_shape, conds)
comfy.model_management.load_models_gpu([model] + models, memory_required=memory_required + inference_memory, minimum_memory_required=minimum_memory_required + inference_memory)
real_model = model.model
return real_model, conds, models

8
comfy/samplers.py
View File

@ -263,7 +263,13 @@ def _calc_cond_batch(model: 'BaseModel', conds: list[list[dict]], x_in: torch.Te
for i in range(1, len(to_batch_temp) + 1):
batch_amount = to_batch_temp[:len(to_batch_temp)//i]
input_shape = [len(batch_amount) * first_shape[0]] + list(first_shape)[1:]
if model.memory_required(input_shape) * 1.5 < free_memory:
cond_shapes = collections.defaultdict(list)
for tt in batch_amount:
cond = {k: v.size() for k, v in to_run[tt][0].conditioning.items()}
for k, v in to_run[tt][0].conditioning.items():
cond_shapes[k].append(v.size())
if model.memory_required(input_shape, cond_shapes=cond_shapes) * 1.5 < free_memory:
to_batch = batch_amount
break

23
comfy/sd.py
View File

@ -1081,7 +1081,28 @@ def load_state_dict_guess_config(sd, output_vae=True, output_clip=True, output_c
return (model_patcher, clip, vae, clipvision)
def load_diffusion_model_state_dict(sd, model_options={}): #load unet in diffusers or regular format
def load_diffusion_model_state_dict(sd, model_options={}):
"""
Loads a UNet diffusion model from a state dictionary, supporting both diffusers and regular formats.
Args:
sd (dict): State dictionary containing model weights and configuration
model_options (dict, optional): Additional options for model loading. Supports:
- dtype: Override model data type
- custom_operations: Custom model operations
- fp8_optimizations: Enable FP8 optimizations
Returns:
ModelPatcher: A wrapped model instance that handles device management and weight loading.
Returns None if the model configuration cannot be detected.
The function:
1. Detects and handles different model formats (regular, diffusers, mmdit)
2. Configures model dtype based on parameters and device capabilities
3. Handles weight conversion and device placement
4. Manages model optimization settings
5. Loads weights and returns a device-managed model instance
"""
dtype = model_options.get("dtype", None)
#Allow loading unets from checkpoint files

2
comfy/sd1_clip.py
View File

@ -462,7 +462,7 @@ class SDTokenizer:
tokenizer_path = os.path.join(os.path.dirname(os.path.realpath(__file__)), "sd1_tokenizer")
self.tokenizer = tokenizer_class.from_pretrained(tokenizer_path, **tokenizer_args)
self.max_length = tokenizer_data.get("{}_max_length".format(embedding_key), max_length)
self.min_length = min_length
self.min_length = tokenizer_data.get("{}_min_length".format(embedding_key), min_length)
self.end_token = None
self.min_padding = min_padding

54
comfy/supported_models.py
View File

@ -908,6 +908,48 @@ class CosmosI2V(CosmosT2V):
out = model_base.CosmosVideo(self, image_to_video=True, device=device)
return out
class CosmosT2IPredict2(supported_models_base.BASE):
unet_config = {
"image_model": "cosmos_predict2",
"in_channels": 16,
}
sampling_settings = {
"sigma_data": 1.0,
"sigma_max": 80.0,
"sigma_min": 0.002,
}
unet_extra_config = {}
latent_format = latent_formats.Wan21
memory_usage_factor = 1.0
supported_inference_dtypes = [torch.bfloat16, torch.float32]
def __init__(self, unet_config):
super().__init__(unet_config)
self.memory_usage_factor = (unet_config.get("model_channels", 2048) / 2048) * 0.9
def get_model(self, state_dict, prefix="", device=None):
out = model_base.CosmosPredict2(self, device=device)
return out
def clip_target(self, state_dict={}):
pref = self.text_encoder_key_prefix[0]
t5_detect = comfy.text_encoders.sd3_clip.t5_xxl_detect(state_dict, "{}t5xxl.transformer.".format(pref))
return supported_models_base.ClipTarget(comfy.text_encoders.cosmos.CosmosT5Tokenizer, comfy.text_encoders.cosmos.te(**t5_detect))
class CosmosI2VPredict2(CosmosT2IPredict2):
unet_config = {
"image_model": "cosmos_predict2",
"in_channels": 17,
}
def get_model(self, state_dict, prefix="", device=None):
out = model_base.CosmosPredict2(self, image_to_video=True, device=device)
return out
class Lumina2(supported_models_base.BASE):
unet_config = {
"image_model": "lumina2",
@ -992,6 +1034,16 @@ class WAN21_FunControl2V(WAN21_T2V):
out = model_base.WAN21(self, image_to_video=False, device=device)
return out
class WAN21_Camera(WAN21_T2V):
unet_config = {
"image_model": "wan2.1",
"model_type": "camera",
"in_dim": 32,
}
def get_model(self, state_dict, prefix="", device=None):
out = model_base.WAN21_Camera(self, image_to_video=False, device=device)
return out
class WAN21_Vace(WAN21_T2V):
unet_config = {
"image_model": "wan2.1",
@ -1129,6 +1181,6 @@ class ACEStep(supported_models_base.BASE):
def clip_target(self, state_dict={}):
return supported_models_base.ClipTarget(comfy.text_encoders.ace.AceT5Tokenizer, comfy.text_encoders.ace.AceT5Model)
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, HunyuanVideoSkyreelsI2V, HunyuanVideoI2V, HunyuanVideo, CosmosT2V, CosmosI2V, Lumina2, WAN21_T2V, WAN21_I2V, WAN21_FunControl2V, WAN21_Vace, Hunyuan3Dv2mini, Hunyuan3Dv2, HiDream, Chroma, ACEStep]
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, HunyuanVideoSkyreelsI2V, HunyuanVideoI2V, HunyuanVideo, CosmosT2V, CosmosI2V, CosmosT2IPredict2, CosmosI2VPredict2, Lumina2, WAN21_T2V, WAN21_I2V, WAN21_FunControl2V, WAN21_Vace, WAN21_Camera, Hunyuan3Dv2mini, Hunyuan3Dv2, HiDream, Chroma, ACEStep]
models += [SVD_img2vid]

25
comfy/text_encoders/long_clipl.json
View File

@ -1,25 +0,0 @@
{
"_name_or_path": "openai/clip-vit-large-patch14",
"architectures": [
"CLIPTextModel"
],
"attention_dropout": 0.0,
"bos_token_id": 0,
"dropout": 0.0,
"eos_token_id": 49407,
"hidden_act": "quick_gelu",
"hidden_size": 768,
"initializer_factor": 1.0,
"initializer_range": 0.02,
"intermediate_size": 3072,
"layer_norm_eps": 1e-05,
"max_position_embeddings": 248,
"model_type": "clip_text_model",
"num_attention_heads": 12,
"num_hidden_layers": 12,
"pad_token_id": 1,
"projection_dim": 768,
"torch_dtype": "float32",
"transformers_version": "4.24.0",
"vocab_size": 49408
}

2
comfy/utils.py
View File

@ -78,8 +78,6 @@ def load_torch_file(ckpt, safe_load=False, device=None, return_metadata=False):
pl_sd = torch.load(ckpt, map_location=device, weights_only=True, **torch_args)
else:
pl_sd = torch.load(ckpt, map_location=device, pickle_module=comfy.checkpoint_pickle)
if "global_step" in pl_sd:
logging.debug(f"Global Step: {pl_sd['global_step']}")
if "state_dict" in pl_sd:
sd = pl_sd["state_dict"]
else:

8
comfy/weight_adapter/__init__.py
View File

@ -1,4 +1,4 @@
from .base import WeightAdapterBase
from .base import WeightAdapterBase, WeightAdapterTrainBase
from .lora import LoRAAdapter
from .loha import LoHaAdapter
from .lokr import LoKrAdapter
@ -15,3 +15,9 @@ adapters: list[type[WeightAdapterBase]] = [
OFTAdapter,
BOFTAdapter,
]
__all__ = [
"WeightAdapterBase",
"WeightAdapterTrainBase",
"adapters"
] + [a.__name__ for a in adapters]

35
comfy/weight_adapter/base.py
View File

@ -12,12 +12,20 @@ class WeightAdapterBase:
weights: list[torch.Tensor]
@classmethod
def load(cls, x: str, lora: dict[str, torch.Tensor]) -> Optional["WeightAdapterBase"]:
def load(cls, x: str, lora: dict[str, torch.Tensor], alpha: float, dora_scale: torch.Tensor) -> Optional["WeightAdapterBase"]:
raise NotImplementedError
def to_train(self) -> "WeightAdapterTrainBase":
raise NotImplementedError
@classmethod
def create_train(cls, weight, *args) -> "WeightAdapterTrainBase":
"""
weight: The original weight tensor to be modified.
*args: Additional arguments for configuration, such as rank, alpha etc.
"""
raise NotImplementedError
def calculate_weight(
self,
weight,
@ -33,10 +41,22 @@ class WeightAdapterBase:
class WeightAdapterTrainBase(nn.Module):
# We follow the scheme of PR #7032
def __init__(self):
super().__init__()
# [TODO] Collaborate with LoRA training PR #7032
def __call__(self, w):
"""
w: The original weight tensor to be modified.
"""
raise NotImplementedError
def passive_memory_usage(self):
raise NotImplementedError("passive_memory_usage is not implemented")
def move_to(self, device):
self.to(device)
return self.passive_memory_usage()
def weight_decompose(dora_scale, weight, lora_diff, alpha, strength, intermediate_dtype, function):
@ -102,3 +122,14 @@ def pad_tensor_to_shape(tensor: torch.Tensor, new_shape: list[int]) -> torch.Ten
padded_tensor[new_slices] = tensor[orig_slices]
return padded_tensor
def tucker_weight_from_conv(up, down, mid):
up = up.reshape(up.size(0), up.size(1))
down = down.reshape(down.size(0), down.size(1))
return torch.einsum("m n ..., i m, n j -> i j ...", mid, up, down)
def tucker_weight(wa, wb, t):
temp = torch.einsum("i j ..., j r -> i r ...", t, wb)
return torch.einsum("i j ..., i r -> r j ...", temp, wa)

66
comfy/weight_adapter/lora.py
View File

@ -3,7 +3,56 @@ from typing import Optional
import torch
import comfy.model_management
from .base import WeightAdapterBase, weight_decompose, pad_tensor_to_shape
from .base import (
WeightAdapterBase,
WeightAdapterTrainBase,
weight_decompose,
pad_tensor_to_shape,
tucker_weight_from_conv,
)
class LoraDiff(WeightAdapterTrainBase):
def __init__(self, weights):
super().__init__()
mat1, mat2, alpha, mid, dora_scale, reshape = weights
out_dim, rank = mat1.shape[0], mat1.shape[1]
rank, in_dim = mat2.shape[0], mat2.shape[1]
if mid is not None:
convdim = mid.ndim - 2
layer = (
torch.nn.Conv1d,
torch.nn.Conv2d,
torch.nn.Conv3d
)[convdim]
else:
layer = torch.nn.Linear
self.lora_up = layer(rank, out_dim, bias=False)
self.lora_down = layer(in_dim, rank, bias=False)
self.lora_up.weight.data.copy_(mat1)
self.lora_down.weight.data.copy_(mat2)
if mid is not None:
self.lora_mid = layer(mid, rank, bias=False)
self.lora_mid.weight.data.copy_(mid)
else:
self.lora_mid = None
self.rank = rank
self.alpha = torch.nn.Parameter(torch.tensor(alpha), requires_grad=False)
def __call__(self, w):
org_dtype = w.dtype
if self.lora_mid is None:
diff = self.lora_up.weight @ self.lora_down.weight
else:
diff = tucker_weight_from_conv(
self.lora_up.weight, self.lora_down.weight, self.lora_mid.weight
)
scale = self.alpha / self.rank
weight = w + scale * diff.reshape(w.shape)
return weight.to(org_dtype)
def passive_memory_usage(self):
return sum(param.numel() * param.element_size() for param in self.parameters())
class LoRAAdapter(WeightAdapterBase):
@ -13,6 +62,21 @@ class LoRAAdapter(WeightAdapterBase):
self.loaded_keys = loaded_keys
self.weights = weights
@classmethod
def create_train(cls, weight, rank=1, alpha=1.0):
out_dim = weight.shape[0]
in_dim = weight.shape[1:].numel()
mat1 = torch.empty(out_dim, rank, device=weight.device, dtype=weight.dtype)
mat2 = torch.empty(rank, in_dim, device=weight.device, dtype=weight.dtype)
torch.nn.init.kaiming_uniform_(mat1, a=5**0.5)
torch.nn.init.constant_(mat2, 0.0)
return LoraDiff(
(mat1, mat2, alpha, None, None, None)
)
def to_train(self):
return LoraDiff(self.weights)
@classmethod
def load(
cls,

10
comfy_api/input/video_types.py
View File

@ -43,3 +43,13 @@ class VideoInput(ABC):
components = self.get_components()
return components.images.shape[2], components.images.shape[1]
def get_duration(self) -> float:
"""
Returns the duration of the video in seconds.
Returns:
Duration in seconds
"""
components = self.get_components()
frame_count = components.images.shape[0]
return float(frame_count / components.frame_rate)

32
comfy_api/input_impl/video_types.py
View File

@ -80,6 +80,38 @@ class VideoFromFile(VideoInput):
return stream.width, stream.height
raise ValueError(f"No video stream found in file '{self.__file}'")
def get_duration(self) -> float:
"""
Returns the duration of the video in seconds.
Returns:
Duration in seconds
"""
if isinstance(self.__file, io.BytesIO):
self.__file.seek(0)
with av.open(self.__file, mode="r") as container:
if container.duration is not None:
return float(container.duration / av.time_base)
# Fallback: calculate from frame count and frame rate
video_stream = next(
(s for s in container.streams if s.type == "video"), None
)
if video_stream and video_stream.frames and video_stream.average_rate:
return float(video_stream.frames / video_stream.average_rate)
# Last resort: decode frames to count them
if video_stream and video_stream.average_rate:
frame_count = 0
container.seek(0)
for packet in container.demux(video_stream):
for _ in packet.decode():
frame_count += 1
if frame_count > 0:
return float(frame_count / video_stream.average_rate)
raise ValueError(f"Could not determine duration for file '{self.__file}'")
def get_components_internal(self, container: InputContainer) -> VideoComponents:
# Get video frames
frames = []

5
comfy_api/torch_helpers/__init__.py Normal file
View File

@ -0,0 +1,5 @@
from .torch_compile import set_torch_compile_wrapper
__all__ = [
"set_torch_compile_wrapper",
]

69
comfy_api/torch_helpers/torch_compile.py Normal file
View File

@ -0,0 +1,69 @@
from __future__ import annotations
import torch
import comfy.utils
from comfy.patcher_extension import WrappersMP
from typing import TYPE_CHECKING, Callable, Optional
if TYPE_CHECKING:
from comfy.model_patcher import ModelPatcher
from comfy.patcher_extension import WrapperExecutor
COMPILE_KEY = "torch.compile"
TORCH_COMPILE_KWARGS = "torch_compile_kwargs"
def apply_torch_compile_factory(compiled_module_dict: dict[str, Callable]) -> Callable:
'''
Create a wrapper that will refer to the compiled_diffusion_model.
'''
def apply_torch_compile_wrapper(executor: WrapperExecutor, *args, **kwargs):
try:
orig_modules = {}
for key, value in compiled_module_dict.items():
orig_modules[key] = comfy.utils.get_attr(executor.class_obj, key)
comfy.utils.set_attr(executor.class_obj, key, value)
return executor(*args, **kwargs)
finally:
for key, value in orig_modules.items():
comfy.utils.set_attr(executor.class_obj, key, value)
return apply_torch_compile_wrapper
def set_torch_compile_wrapper(model: ModelPatcher, backend: str, options: Optional[dict[str,str]]=None,
mode: Optional[str]=None, fullgraph=False, dynamic: Optional[bool]=None,
keys: list[str]=["diffusion_model"], *args, **kwargs):
'''
Perform torch.compile that will be applied at sample time for either the whole model or specific params of the BaseModel instance.
When keys is None, it will default to using ["diffusion_model"], compiling the whole diffusion_model.
When a list of keys is provided, it will perform torch.compile on only the selected modules.
'''
# clear out any other torch.compile wrappers
model.remove_wrappers_with_key(WrappersMP.APPLY_MODEL, COMPILE_KEY)
# if no keys, default to 'diffusion_model'
if not keys:
keys = ["diffusion_model"]
# create kwargs dict that can be referenced later
compile_kwargs = {
"backend": backend,
"options": options,
"mode": mode,
"fullgraph": fullgraph,
"dynamic": dynamic,
}
# get a dict of compiled keys
compiled_modules = {}
for key in keys:
compiled_modules[key] = torch.compile(
model=model.get_model_object(key),
**compile_kwargs,
)
# add torch.compile wrapper
wrapper_func = apply_torch_compile_factory(
compiled_module_dict=compiled_modules,
)
# store wrapper to run on BaseModel's apply_model function
model.add_wrapper_with_key(WrappersMP.APPLY_MODEL, COMPILE_KEY, wrapper_func)
# keep compile kwargs for reference
model.model_options[TORCH_COMPILE_KWARGS] = compile_kwargs

26
comfy_api_nodes/README.md
View File

@ -18,6 +18,8 @@ Follow the instructions [here](https://github.com/Comfy-Org/ComfyUI_frontend) to
python run main.py --comfy-api-base https://stagingapi.comfy.org
```
To authenticate to staging, please login and then ask one of Comfy Org team to whitelist you for access to staging.
API stubs are generated through automatic codegen tools from OpenAPI definitions. Since the Comfy Org OpenAPI definition contains many things from the Comfy Registry as well, we use redocly/cli to filter out only the paths relevant for API nodes.
### Redocly Instructions
@ -28,7 +30,7 @@ When developing locally, use the `redocly-dev.yaml` file to generate pydantic mo
Before your API node PR merges, make sure to add the `Released` tag to the `openapi.yaml` file and test in staging.
```bash
# Download the OpenAPI file from prod server.
# Download the OpenAPI file from staging server.
curl -o openapi.yaml https://stagingapi.comfy.org/openapi
# Filter out unneeded API definitions.
@ -39,3 +41,25 @@ redocly bundle openapi.yaml --output filtered-openapi.yaml --config comfy_api_no
datamodel-codegen --use-subclass-enum --field-constraints --strict-types bytes --input filtered-openapi.yaml --output comfy_api_nodes/apis/__init__.py --output-model-type pydantic_v2.BaseModel
```
# Merging to Master
Before merging to comfyanonymous/ComfyUI master, follow these steps:
1. Add the "Released" tag to the ComfyUI OpenAPI yaml file for each endpoint you are using in the nodes.
1. Make sure the ComfyUI API is deployed to prod with your changes.
1. Run the code generation again with `redocly.yaml` and the production OpenAPI yaml file.
```bash
# Download the OpenAPI file from prod server.
curl -o openapi.yaml https://api.comfy.org/openapi
# Filter out unneeded API definitions.
npm install -g @redocly/cli
redocly bundle openapi.yaml --output filtered-openapi.yaml --config comfy_api_nodes/redocly.yaml --remove-unused-components
# Generate the pydantic datamodels for validation.
datamodel-codegen --use-subclass-enum --field-constraints --strict-types bytes --input filtered-openapi.yaml --output comfy_api_nodes/apis/__init__.py --output-model-type pydantic_v2.BaseModel
```

136
comfy_api_nodes/apinode_utils.py
View File

@ -1,7 +1,8 @@
from __future__ import annotations
import io
import logging
from typing import Optional
import mimetypes
from typing import Optional, Union
from comfy.utils import common_upscale
from comfy_api.input_impl import VideoFromFile
from comfy_api.util import VideoContainer, VideoCodec
@ -15,6 +16,7 @@ from comfy_api_nodes.apis.client import (
UploadRequest,
UploadResponse,
)
from server import PromptServer
import numpy as np
@ -60,7 +62,9 @@ def downscale_image_tensor(image, total_pixels=1536 * 1024) -> torch.Tensor:
return s
def validate_and_cast_response(response, timeout: int = None) -> torch.Tensor:
def validate_and_cast_response(
response, timeout: int = None, node_id: Union[str, None] = None
) -> torch.Tensor:
"""Validates and casts a response to a torch.Tensor.
Args:
@ -94,6 +98,10 @@ def validate_and_cast_response(response, timeout: int = None) -> torch.Tensor:
img = Image.open(io.BytesIO(img_data))
elif image_url:
if node_id:
PromptServer.instance.send_progress_text(
f"Result URL: {image_url}", node_id
)
img_response = requests.get(image_url, timeout=timeout)
if img_response.status_code != 200:
raise ValueError("Failed to download the image")
@ -207,6 +215,7 @@ def download_url_to_image_tensor(url: str, timeout: int = None) -> torch.Tensor:
image_bytesio = download_url_to_bytesio(url, timeout)
return bytesio_to_image_tensor(image_bytesio)
def process_image_response(response: requests.Response) -> torch.Tensor:
"""Uses content from a Response object and converts it to a torch.Tensor"""
return bytesio_to_image_tensor(BytesIO(response.content))
@ -311,11 +320,27 @@ def tensor_to_data_uri(
return f"data:{mime_type};base64,{base64_string}"
def text_filepath_to_base64_string(filepath: str) -> str:
"""Converts a text file to a base64 string."""
with open(filepath, "rb") as f:
file_content = f.read()
return base64.b64encode(file_content).decode("utf-8")
def text_filepath_to_data_uri(filepath: str) -> str:
"""Converts a text file to a data URI."""
base64_string = text_filepath_to_base64_string(filepath)
mime_type, _ = mimetypes.guess_type(filepath)
if mime_type is None:
mime_type = "application/octet-stream"
return f"data:{mime_type};base64,{base64_string}"
def upload_file_to_comfyapi(
file_bytes_io: BytesIO,
filename: str,
upload_mime_type: str,
auth_kwargs: Optional[dict[str,str]] = None,
auth_kwargs: Optional[dict[str, str]] = None,
) -> str:
"""
Uploads a single file to ComfyUI API and returns its download URL.
@ -350,9 +375,33 @@ def upload_file_to_comfyapi(
return response.download_url
def video_to_base64_string(
video: VideoInput,
container_format: VideoContainer = None,
codec: VideoCodec = None
) -> str:
"""
Converts a video input to a base64 string.
Args:
video: The video input to convert
container_format: Optional container format to use (defaults to video.container if available)
codec: Optional codec to use (defaults to video.codec if available)
"""
video_bytes_io = io.BytesIO()
# Use provided format/codec if specified, otherwise use video's own if available
format_to_use = container_format if container_format is not None else getattr(video, 'container', VideoContainer.MP4)
codec_to_use = codec if codec is not None else getattr(video, 'codec', VideoCodec.H264)
video.save_to(video_bytes_io, format=format_to_use, codec=codec_to_use)
video_bytes_io.seek(0)
return base64.b64encode(video_bytes_io.getvalue()).decode("utf-8")
def upload_video_to_comfyapi(
video: VideoInput,
auth_kwargs: Optional[dict[str,str]] = None,
auth_kwargs: Optional[dict[str, str]] = None,
container: VideoContainer = VideoContainer.MP4,
codec: VideoCodec = VideoCodec.H264,
max_duration: Optional[int] = None,
@ -454,7 +503,7 @@ def audio_ndarray_to_bytesio(
def upload_audio_to_comfyapi(
audio: AudioInput,
auth_kwargs: Optional[dict[str,str]] = None,
auth_kwargs: Optional[dict[str, str]] = None,
container_format: str = "mp4",
codec_name: str = "aac",
mime_type: str = "audio/mp4",
@ -481,8 +530,25 @@ def upload_audio_to_comfyapi(
return upload_file_to_comfyapi(audio_bytes_io, filename, mime_type, auth_kwargs)
def audio_to_base64_string(
audio: AudioInput, container_format: str = "mp4", codec_name: str = "aac"
) -> str:
"""Converts an audio input to a base64 string."""
sample_rate: int = audio["sample_rate"]
waveform: torch.Tensor = audio["waveform"]
audio_data_np = audio_tensor_to_contiguous_ndarray(waveform)
audio_bytes_io = audio_ndarray_to_bytesio(
audio_data_np, sample_rate, container_format, codec_name
)
audio_bytes = audio_bytes_io.getvalue()
return base64.b64encode(audio_bytes).decode("utf-8")
def upload_images_to_comfyapi(
image: torch.Tensor, max_images=8, auth_kwargs: Optional[dict[str,str]] = None, mime_type: Optional[str] = None
image: torch.Tensor,
max_images=8,
auth_kwargs: Optional[dict[str, str]] = None,
mime_type: Optional[str] = None,
) -> list[str]:
"""
Uploads images to ComfyUI API and returns download URLs.
@ -547,17 +613,24 @@ def upload_images_to_comfyapi(
return download_urls
def resize_mask_to_image(mask: torch.Tensor, image: torch.Tensor,
upscale_method="nearest-exact", crop="disabled",
allow_gradient=True, add_channel_dim=False):
def resize_mask_to_image(
mask: torch.Tensor,
image: torch.Tensor,
upscale_method="nearest-exact",
crop="disabled",
allow_gradient=True,
add_channel_dim=False,
):
"""
Resize mask to be the same dimensions as an image, while maintaining proper format for API calls.
"""
_, H, W, _ = image.shape
mask = mask.unsqueeze(-1)
mask = mask.movedim(-1,1)
mask = common_upscale(mask, width=W, height=H, upscale_method=upscale_method, crop=crop)
mask = mask.movedim(1,-1)
mask = mask.movedim(-1, 1)
mask = common_upscale(
mask, width=W, height=H, upscale_method=upscale_method, crop=crop
)
mask = mask.movedim(1, -1)
if not add_channel_dim:
mask = mask.squeeze(-1)
if not allow_gradient:
@ -565,12 +638,41 @@ def resize_mask_to_image(mask: torch.Tensor, image: torch.Tensor,
return mask
def validate_string(string: str, strip_whitespace=True, field_name="prompt", min_length=None, max_length=None):
def validate_string(
string: str,
strip_whitespace=True,
field_name="prompt",
min_length=None,
max_length=None,
):
if string is None:
raise Exception(f"Field '{field_name}' cannot be empty.")
if strip_whitespace:
string = string.strip()
if min_length and len(string) < min_length:
raise Exception(f"Field '{field_name}' cannot be shorter than {min_length} characters; was {len(string)} characters long.")
raise Exception(
f"Field '{field_name}' cannot be shorter than {min_length} characters; was {len(string)} characters long."
)
if max_length and len(string) > max_length:
raise Exception(f" Field '{field_name} cannot be longer than {max_length} characters; was {len(string)} characters long.")
if not string:
raise Exception(f"Field '{field_name}' cannot be empty.")
raise Exception(
f" Field '{field_name} cannot be longer than {max_length} characters; was {len(string)} characters long."
)
def image_tensor_pair_to_batch(
image1: torch.Tensor, image2: torch.Tensor
) -> torch.Tensor:
"""
Converts a pair of image tensors to a batch tensor.
If the images are not the same size, the smaller image is resized to
match the larger image.
"""
if image1.shape[1:] != image2.shape[1:]:
image2 = common_upscale(
image2.movedim(-1, 1),
image1.shape[2],
image1.shape[1],
"bilinear",
"center",
).movedim(1, -1)
return torch.cat((image1, image2), dim=0)

5906
comfy_api_nodes/apis/__init__.py
View File

File diff suppressed because it is too large Load Diff

18
comfy_api_nodes/apis/bfl_api.py
View File

@ -108,6 +108,24 @@ class BFLFluxProGenerateRequest(BaseModel):
# )
class BFLFluxKontextProGenerateRequest(BaseModel):
prompt: str = Field(..., description='The text prompt for what you wannt to edit.')
input_image: Optional[str] = Field(None, description='Image to edit in base64 format')
seed: Optional[int] = Field(None, description='The seed value for reproducibility.')
guidance: confloat(ge=0.1, le=99.0) = Field(..., description='Guidance strength for the image generation process')
steps: conint(ge=1, le=150) = Field(..., description='Number of steps for the image generation process')
safety_tolerance: Optional[conint(ge=0, le=2)] = Field(
2, description='Tolerance level for input and output moderation. Between 0 and 2, 0 being most strict, 6 being least strict. Defaults to 2.'
)
output_format: Optional[BFLOutputFormat] = Field(
BFLOutputFormat.png, description="Output format for the generated image. Can be 'jpeg' or 'png'.", examples=['png']
)
aspect_ratio: Optional[str] = Field(None, description='Aspect ratio of the image between 21:9 and 9:21.')
prompt_upsampling: Optional[bool] = Field(
None, description='Whether to perform upsampling on the prompt. If active, automatically modifies the prompt for more creative generation.'
)
class BFLFluxProUltraGenerateRequest(BaseModel):
prompt: str = Field(..., description='The text prompt for image generation.')
prompt_upsampling: Optional[bool] = Field(

589
comfy_api_nodes/apis/client.py
View File

@ -94,15 +94,19 @@ from __future__ import annotations
import logging
import time
import io
from typing import Dict, Type, Optional, Any, TypeVar, Generic, Callable
import socket
from typing import Dict, Type, Optional, Any, TypeVar, Generic, Callable, Tuple
from enum import Enum
import json
import requests
from urllib.parse import urljoin
from urllib.parse import urljoin, urlparse
from pydantic import BaseModel, Field
import uuid # For generating unique operation IDs
from server import PromptServer
from comfy.cli_args import args
from comfy import utils
from . import request_logger
T = TypeVar("T", bound=BaseModel)
R = TypeVar("R", bound=BaseModel)
@ -111,6 +115,21 @@ P = TypeVar("P", bound=BaseModel) # For poll response
PROGRESS_BAR_MAX = 100
class NetworkError(Exception):
"""Base exception for network-related errors with diagnostic information."""
pass
class LocalNetworkError(NetworkError):
"""Exception raised when local network connectivity issues are detected."""
pass
class ApiServerError(NetworkError):
"""Exception raised when the API server is unreachable but internet is working."""
pass
class EmptyRequest(BaseModel):
"""Base class for empty request bodies.
For GET requests, fields will be sent as query parameters."""
@ -120,7 +139,7 @@ class EmptyRequest(BaseModel):
class UploadRequest(BaseModel):
file_name: str = Field(..., description="Filename to upload")
content_type: str | None = Field(
content_type: Optional[str] = Field(
None,
description="Mime type of the file. For example: image/png, image/jpeg, video/mp4, etc.",
)
@ -141,7 +160,7 @@ class HttpMethod(str, Enum):
class ApiClient:
"""
Client for making HTTP requests to an API with authentication and error handling.
Client for making HTTP requests to an API with authentication, error handling, and retry logic.
"""
def __init__(
@ -151,12 +170,26 @@ class ApiClient:
comfy_api_key: Optional[str] = None,
timeout: float = 3600.0,
verify_ssl: bool = True,
max_retries: int = 3,
retry_delay: float = 1.0,
retry_backoff_factor: float = 2.0,
retry_status_codes: Optional[Tuple[int, ...]] = None,
):
self.base_url = base_url
self.auth_token = auth_token
self.comfy_api_key = comfy_api_key
self.timeout = timeout
self.verify_ssl = verify_ssl
self.max_retries = max_retries
self.retry_delay = retry_delay
self.retry_backoff_factor = retry_backoff_factor
# Default retry status codes: 408 (Request Timeout), 429 (Too Many Requests),
# 500, 502, 503, 504 (Server Errors)
self.retry_status_codes = retry_status_codes or (408, 429, 500, 502, 503, 504)
def _generate_operation_id(self, path: str) -> str:
"""Generates a unique operation ID for logging."""
return f"{path.strip('/').replace('/', '_')}_{uuid.uuid4().hex[:8]}"
def _create_json_payload_args(
self,
@ -211,6 +244,56 @@ class ApiClient:
return headers
def _check_connectivity(self, target_url: str) -> Dict[str, bool]:
"""
Check connectivity to determine if network issues are local or server-related.
Args:
target_url: URL to check connectivity to
Returns:
Dictionary with connectivity status details
"""
results = {
"internet_accessible": False,
"api_accessible": False,
"is_local_issue": False,
"is_api_issue": False
}
# First check basic internet connectivity using a reliable external site
try:
# Use a reliable external domain for checking basic connectivity
check_response = requests.get("https://www.google.com",
timeout=5.0,
verify=self.verify_ssl)
if check_response.status_code < 500:
results["internet_accessible"] = True
except (requests.RequestException, socket.error):
results["internet_accessible"] = False
results["is_local_issue"] = True
return results
# Now check API server connectivity
try:
# Extract domain from the target URL to do a simpler health check
parsed_url = urlparse(target_url)
api_base = f"{parsed_url.scheme}://{parsed_url.netloc}"
# Try to reach the API domain
api_response = requests.get(f"{api_base}/health", timeout=5.0, verify=self.verify_ssl)
if api_response.status_code < 500:
results["api_accessible"] = True
else:
results["api_accessible"] = False
results["is_api_issue"] = True
except requests.RequestException:
results["api_accessible"] = False
# If we can reach the internet but not the API, it's an API issue
results["is_api_issue"] = True
return results
def request(
self,
method: str,
@ -221,9 +304,10 @@ class ApiClient:
headers: Optional[Dict[str, str]] = None,
content_type: str = "application/json",
multipart_parser: Callable = None,
retry_count: int = 0, # Used internally for tracking retries
) -> Dict[str, Any]:
"""
Make an HTTP request to the API
Make an HTTP request to the API with automatic retries for transient errors.
Args:
method: HTTP method (GET, POST, etc.)
@ -233,14 +317,19 @@ class ApiClient:
files: Files to upload
headers: Additional headers
content_type: Content type of the request. Defaults to application/json.
retry_count: Internal parameter for tracking retries, do not set manually
Returns:
Parsed JSON response
Raises:
requests.RequestException: If the request fails
LocalNetworkError: If local network connectivity issues are detected
ApiServerError: If the API server is unreachable but internet is working
Exception: For other request failures
"""
url = urljoin(self.base_url, path)
# Use urljoin but ensure path is relative to avoid absolute path behavior
relative_path = path.lstrip('/')
url = urljoin(self.base_url, relative_path)
self.check_auth(self.auth_token, self.comfy_api_key)
# Combine default headers with any provided headers
request_headers = self.get_headers()
@ -265,6 +354,16 @@ class ApiClient:
else:
payload_args = self._create_json_payload_args(data, request_headers)
operation_id = self._generate_operation_id(path)
request_logger.log_request_response(
operation_id=operation_id,
request_method=method,
request_url=url,
request_headers=request_headers,
request_params=params,
request_data=data if content_type == "application/json" else "[form-data or other]"
)
try:
response = requests.request(
method=method,
@ -275,50 +374,228 @@ class ApiClient:
**payload_args,
)
# Check if we should retry based on status code
if (response.status_code in self.retry_status_codes and
retry_count < self.max_retries):
# Calculate delay with exponential backoff
delay = self.retry_delay * (self.retry_backoff_factor ** retry_count)
logging.warning(
f"Request failed with status {response.status_code}. "
f"Retrying in {delay:.2f}s ({retry_count + 1}/{self.max_retries})"
)
time.sleep(delay)
return self.request(
method=method,
path=path,
params=params,
data=data,
files=files,
headers=headers,
content_type=content_type,
multipart_parser=multipart_parser,
retry_count=retry_count + 1,
)
# Raise exception for error status codes
response.raise_for_status()
except requests.ConnectionError:
raise Exception(
f"Unable to connect to the API server at {self.base_url}. Please check your internet connection or verify the service is available."
# Log successful response
response_content_to_log = response.content
try:
# Attempt to parse JSON for prettier logging, fallback to raw content
response_content_to_log = response.json()
except json.JSONDecodeError:
pass # Keep as bytes/str if not JSON
request_logger.log_request_response(
operation_id=operation_id,
request_method=method, # Pass request details again for context in log
request_url=url,
response_status_code=response.status_code,
response_headers=dict(response.headers),
response_content=response_content_to_log
)
except requests.Timeout:
raise Exception(
f"Request timed out after {self.timeout} seconds. The server might be experiencing high load or the operation is taking longer than expected."
except requests.ConnectionError as e:
error_message = f"ConnectionError: {str(e)}"
request_logger.log_request_response(
operation_id=operation_id,
request_method=method,
request_url=url,
error_message=error_message
)
# Only perform connectivity check if we've exhausted all retries
if retry_count >= self.max_retries:
# Check connectivity to determine if it's a local or API issue
connectivity = self._check_connectivity(self.base_url)
if connectivity["is_local_issue"]:
raise LocalNetworkError(
"Unable to connect to the API server due to local network issues. "
"Please check your internet connection and try again."
) from e
elif connectivity["is_api_issue"]:
raise ApiServerError(
f"The API server at {self.base_url} is currently unreachable. "
f"The service may be experiencing issues. Please try again later."
) from e
# If we haven't exhausted retries yet, retry the request
if retry_count < self.max_retries:
delay = self.retry_delay * (self.retry_backoff_factor ** retry_count)
logging.warning(
f"Connection error: {str(e)}. "
f"Retrying in {delay:.2f}s ({retry_count + 1}/{self.max_retries})"
)
time.sleep(delay)
return self.request(
method=method,
path=path,
params=params,
data=data,
files=files,
headers=headers,
content_type=content_type,
multipart_parser=multipart_parser,
retry_count=retry_count + 1,
)
# If we've exhausted retries and didn't identify the specific issue,
# raise a generic exception
final_error_message = (
f"Unable to connect to the API server after {self.max_retries} attempts. "
f"Please check your internet connection or try again later."
)
request_logger.log_request_response( # Log final failure
operation_id=operation_id,
request_method=method, request_url=url,
error_message=final_error_message
)
raise Exception(final_error_message) from e
except requests.Timeout as e:
error_message = f"Timeout: {str(e)}"
request_logger.log_request_response(
operation_id=operation_id,
request_method=method, request_url=url,
error_message=error_message
)
# Retry timeouts if we haven't exhausted retries
if retry_count < self.max_retries:
delay = self.retry_delay * (self.retry_backoff_factor ** retry_count)
logging.warning(
f"Request timed out. "
f"Retrying in {delay:.2f}s ({retry_count + 1}/{self.max_retries})"
)
time.sleep(delay)
return self.request(
method=method,
path=path,
params=params,
data=data,
files=files,
headers=headers,
content_type=content_type,
multipart_parser=multipart_parser,
retry_count=retry_count + 1,
)
final_error_message = (
f"Request timed out after {self.timeout} seconds and {self.max_retries} retry attempts. "
f"The server might be experiencing high load or the operation is taking longer than expected."
)
request_logger.log_request_response( # Log final failure
operation_id=operation_id,
request_method=method, request_url=url,
error_message=final_error_message
)
raise Exception(final_error_message) from e
except requests.HTTPError as e:
status_code = e.response.status_code if hasattr(e, "response") else None
error_message = f"HTTP Error: {str(e)}"
original_error_message = f"HTTP Error: {str(e)}"
error_content_for_log = None
if hasattr(e, "response") and e.response is not None:
error_content_for_log = e.response.content
try:
error_content_for_log = e.response.json()
except json.JSONDecodeError:
pass
# Try to extract detailed error message from JSON response for user display
# but log the full error content.
user_display_error_message = original_error_message
# Try to extract detailed error message from JSON response
try:
if hasattr(e, "response") and e.response.content:
if hasattr(e, "response") and e.response is not None and e.response.content:
error_json = e.response.json()
if "error" in error_json and "message" in error_json["error"]:
error_message = f"API Error: {error_json['error']['message']}"
user_display_error_message = f"API Error: {error_json['error']['message']}"
if "type" in error_json["error"]:
error_message += f" (Type: {error_json['error']['type']})"
user_display_error_message += f" (Type: {error_json['error']['type']})"
elif isinstance(error_json, dict): # Handle cases where error is just a JSON dict
user_display_error_message = f"API Error: {json.dumps(error_json)}"
else: # Non-dict JSON error
user_display_error_message = f"API Error: {str(error_json)}"
except json.JSONDecodeError:
# If not JSON, use the raw content if it's not too long, or a summary
if hasattr(e, "response") and e.response is not None and e.response.content:
raw_content = e.response.content.decode(errors='ignore')
if len(raw_content) < 200: # Arbitrary limit for display
user_display_error_message = f"API Error (raw): {raw_content}"
else:
error_message = f"API Error: {error_json}"
except Exception as json_error:
# If we can't parse the JSON, fall back to the original error message
logging.debug(
f"[DEBUG] Failed to parse error response: {str(json_error)}"
user_display_error_message = f"API Error (raw, status {status_code})"
request_logger.log_request_response(
operation_id=operation_id,
request_method=method, request_url=url,
response_status_code=status_code,
response_headers=dict(e.response.headers) if hasattr(e, "response") and e.response is not None else None,
response_content=error_content_for_log,
error_message=original_error_message # Log the original exception string as error
)
logging.debug(f"[DEBUG] API Error: {user_display_error_message} (Status: {status_code})")
if hasattr(e, "response") and e.response is not None and e.response.content:
logging.debug(f"[DEBUG] Response content: {e.response.content}")
# Retry if the status code is in our retry list and we haven't exhausted retries
if (status_code in self.retry_status_codes and
retry_count < self.max_retries):
delay = self.retry_delay * (self.retry_backoff_factor ** retry_count)
logging.warning(
f"HTTP error {status_code}. "
f"Retrying in {delay:.2f}s ({retry_count + 1}/{self.max_retries})"
)
time.sleep(delay)
return self.request(
method=method,
path=path,
params=params,
data=data,
files=files,
headers=headers,
content_type=content_type,
multipart_parser=multipart_parser,
retry_count=retry_count + 1,
)
logging.debug(f"[DEBUG] API Error: {error_message} (Status: {status_code})")
if hasattr(e, "response") and e.response.content:
logging.debug(f"[DEBUG] Response content: {e.response.content}")
# Specific error messages for common status codes for user display
if status_code == 401:
error_message = "Unauthorized: Please login first to use this node."
if status_code == 402:
error_message = "Payment Required: Please add credits to your account to use this node."
if status_code == 409:
error_message = "There is a problem with your account. Please contact support@comfy.org. "
if status_code == 429:
error_message = "Rate Limit Exceeded: Please try again later."
raise Exception(error_message)
user_display_error_message = "Unauthorized: Please login first to use this node."
elif status_code == 402:
user_display_error_message = "Payment Required: Please add credits to your account to use this node."
elif status_code == 409:
user_display_error_message = "There is a problem with your account. Please contact support@comfy.org."
elif status_code == 429:
user_display_error_message = "Rate Limit Exceeded: Please try again later."
# else, user_display_error_message remains as parsed from response or original HTTPError string
raise Exception(user_display_error_message) # Raise with the user-friendly message
# Parse and return JSON response
if response.content:
@ -336,26 +613,126 @@ class ApiClient:
upload_url: str,
file: io.BytesIO | str,
content_type: str | None = None,
max_retries: int = 3,
retry_delay: float = 1.0,
retry_backoff_factor: float = 2.0,
):
"""Upload a file to the API. Make sure the file has a filename equal to what the url expects.
"""Upload a file to the API with retry logic.
Args:
upload_url: The URL to upload to
file: Either a file path string, BytesIO object, or tuple of (file_path, filename)
mime_type: Optional mime type to set for the upload
content_type: Optional mime type to set for the upload
max_retries: Maximum number of retry attempts
retry_delay: Initial delay between retries in seconds
retry_backoff_factor: Multiplier for the delay after each retry
"""
headers = {}
if content_type:
headers["Content-Type"] = content_type
# Prepare the file data
if isinstance(file, io.BytesIO):
file.seek(0) # Ensure we're at the start of the file
data = file.read()
return requests.put(upload_url, data=data, headers=headers)
elif isinstance(file, str):
with open(file, "rb") as f:
data = f.read()
return requests.put(upload_url, data=data, headers=headers)
else:
raise ValueError("File must be either a BytesIO object or a file path string")
# Try the upload with retries
last_exception = None
operation_id = f"upload_{upload_url.split('/')[-1]}_{uuid.uuid4().hex[:8]}" # Simplified ID for uploads
# Log initial attempt (without full file data for brevity)
request_logger.log_request_response(
operation_id=operation_id,
request_method="PUT",
request_url=upload_url,
request_headers=headers,
request_data=f"[File data of type {content_type or 'unknown'}, size {len(data)} bytes]"
)
for retry_attempt in range(max_retries + 1):
try:
response = requests.put(upload_url, data=data, headers=headers)
response.raise_for_status()
request_logger.log_request_response(
operation_id=operation_id,
request_method="PUT", request_url=upload_url, # For context
response_status_code=response.status_code,
response_headers=dict(response.headers),
response_content="File uploaded successfully." # Or response.text if available
)
return response
except (requests.ConnectionError, requests.Timeout, requests.HTTPError) as e:
last_exception = e
error_message_for_log = f"{type(e).__name__}: {str(e)}"
response_content_for_log = None
status_code_for_log = None
headers_for_log = None
if hasattr(e, 'response') and e.response is not None:
status_code_for_log = e.response.status_code
headers_for_log = dict(e.response.headers)
try:
response_content_for_log = e.response.json()
except json.JSONDecodeError:
response_content_for_log = e.response.content
request_logger.log_request_response(
operation_id=operation_id,
request_method="PUT", request_url=upload_url,
response_status_code=status_code_for_log,
response_headers=headers_for_log,
response_content=response_content_for_log,
error_message=error_message_for_log
)
if retry_attempt < max_retries:
delay = retry_delay * (retry_backoff_factor ** retry_attempt)
logging.warning(
f"File upload failed: {str(e)}. "
f"Retrying in {delay:.2f}s ({retry_attempt + 1}/{max_retries})"
)
time.sleep(delay)
else:
break # Max retries reached
# If we've exhausted all retries, determine the final error type and raise
final_error_message = f"Failed to upload file after {max_retries + 1} attempts. Error: {str(last_exception)}"
try:
# Check basic internet connectivity
check_response = requests.get("https://www.google.com", timeout=5.0, verify=True) # Assuming verify=True is desired
if check_response.status_code >= 500: # Google itself has an issue (rare)
final_error_message = (f"Failed to upload file. Internet connectivity check to Google failed "
f"(status {check_response.status_code}). Original error: {str(last_exception)}")
# Not raising LocalNetworkError here as Google itself might be down.
# If Google is reachable, the issue is likely with the upload server or a more specific local problem
# not caught by a simple Google ping (e.g., DNS for the specific upload URL, firewall).
# The original last_exception is probably most relevant.
except (requests.RequestException, socket.error) as conn_check_exc:
# Could not reach Google, likely a local network issue
final_error_message = (f"Failed to upload file due to network connectivity issues "
f"(cannot reach Google: {str(conn_check_exc)}). "
f"Original upload error: {str(last_exception)}")
request_logger.log_request_response( # Log final failure reason
operation_id=operation_id,
request_method="PUT", request_url=upload_url,
error_message=final_error_message
)
raise LocalNetworkError(final_error_message) from last_exception
request_logger.log_request_response( # Log final failure reason if not LocalNetworkError
operation_id=operation_id,
request_method="PUT", request_url=upload_url,
error_message=final_error_message
)
raise Exception(final_error_message) from last_exception
class ApiEndpoint(Generic[T, R]):
@ -403,6 +780,9 @@ class SynchronousOperation(Generic[T, R]):
verify_ssl: bool = True,
content_type: str = "application/json",
multipart_parser: Callable = None,
max_retries: int = 3,
retry_delay: float = 1.0,
retry_backoff_factor: float = 2.0,
):
self.endpoint = endpoint
self.request = request
@ -419,8 +799,12 @@ class SynchronousOperation(Generic[T, R]):
self.files = files
self.content_type = content_type
self.multipart_parser = multipart_parser
self.max_retries = max_retries
self.retry_delay = retry_delay
self.retry_backoff_factor = retry_backoff_factor
def execute(self, client: Optional[ApiClient] = None) -> R:
"""Execute the API operation using the provided client or create one"""
"""Execute the API operation using the provided client or create one with retry support"""
try:
# Create client if not provided
if client is None:
@ -430,6 +814,9 @@ class SynchronousOperation(Generic[T, R]):
comfy_api_key=self.comfy_api_key,
timeout=self.timeout,
verify_ssl=self.verify_ssl,
max_retries=self.max_retries,
retry_delay=self.retry_delay,
retry_backoff_factor=self.retry_backoff_factor,
)
# Convert request model to dict, but use None for EmptyRequest
@ -443,11 +830,6 @@ class SynchronousOperation(Generic[T, R]):
if isinstance(value, Enum):
request_dict[key] = value.value
if request_dict:
for key, value in request_dict.items():
if isinstance(value, Enum):
request_dict[key] = value.value
# Debug log for request
logging.debug(
f"[DEBUG] API Request: {self.endpoint.method.value} {self.endpoint.path}"
@ -455,7 +837,7 @@ class SynchronousOperation(Generic[T, R]):
logging.debug(f"[DEBUG] Request Data: {json.dumps(request_dict, indent=2)}")
logging.debug(f"[DEBUG] Query Params: {self.endpoint.query_params}")
# Make the request
# Make the request with built-in retry
resp = client.request(
method=self.endpoint.method.value,
path=self.endpoint.path,
@ -476,8 +858,18 @@ class SynchronousOperation(Generic[T, R]):
# Parse and return the response
return self._parse_response(resp)
except LocalNetworkError as e:
# Propagate specific network error types
logging.error(f"[ERROR] Local network error: {str(e)}")
raise
except ApiServerError as e:
# Propagate API server errors
logging.error(f"[ERROR] API server error: {str(e)}")
raise
except Exception as e:
logging.error(f"[DEBUG] API Exception: {str(e)}")
logging.error(f"[ERROR] API Exception: {str(e)}")
raise Exception(str(e))
def _parse_response(self, resp):
@ -511,12 +903,19 @@ class PollingOperation(Generic[T, R]):
failed_statuses: list,
status_extractor: Callable[[R], str],
progress_extractor: Callable[[R], float] = None,
result_url_extractor: Callable[[R], str] = None,
request: Optional[T] = None,
api_base: str | None = None,
auth_token: Optional[str] = None,
comfy_api_key: Optional[str] = None,
auth_kwargs: Optional[Dict[str,str]] = None,
poll_interval: float = 5.0,
max_poll_attempts: int = 120, # Default max polling attempts (10 minutes with 5s interval)
max_retries: int = 3, # Max retries per individual API call
retry_delay: float = 1.0,
retry_backoff_factor: float = 2.0,
estimated_duration: Optional[float] = None,
node_id: Optional[str] = None,
):
self.poll_endpoint = poll_endpoint
self.request = request
@ -527,12 +926,19 @@ class PollingOperation(Generic[T, R]):
self.auth_token = auth_kwargs.get("auth_token", self.auth_token)
self.comfy_api_key = auth_kwargs.get("comfy_api_key", self.comfy_api_key)
self.poll_interval = poll_interval
self.max_poll_attempts = max_poll_attempts
self.max_retries = max_retries
self.retry_delay = retry_delay
self.retry_backoff_factor = retry_backoff_factor
self.estimated_duration = estimated_duration
# Polling configuration
self.status_extractor = status_extractor or (
lambda x: getattr(x, "status", None)
)
self.progress_extractor = progress_extractor
self.result_url_extractor = result_url_extractor
self.node_id = node_id
self.completed_statuses = completed_statuses
self.failed_statuses = failed_statuses
@ -548,11 +954,46 @@ class PollingOperation(Generic[T, R]):
base_url=self.api_base,
auth_token=self.auth_token,
comfy_api_key=self.comfy_api_key,
max_retries=self.max_retries,
retry_delay=self.retry_delay,
retry_backoff_factor=self.retry_backoff_factor,
)
return self._poll_until_complete(client)
except LocalNetworkError as e:
# Provide clear message for local network issues
raise Exception(
f"Polling failed due to local network issues. Please check your internet connection. "
f"Details: {str(e)}"
) from e
except ApiServerError as e:
# Provide clear message for API server issues
raise Exception(
f"Polling failed due to API server issues. The service may be experiencing problems. "
f"Please try again later. Details: {str(e)}"
) from e
except Exception as e:
raise Exception(f"Error during polling: {str(e)}")
def _display_text_on_node(self, text: str):
"""Sends text to the client which will be displayed on the node in the UI"""
if not self.node_id:
return
PromptServer.instance.send_progress_text(text, self.node_id)
def _display_time_progress_on_node(self, time_completed: int):
if not self.node_id:
return
if self.estimated_duration is not None:
estimated_time_remaining = max(
0, int(self.estimated_duration) - int(time_completed)
)
message = f"Task in progress: {time_completed:.0f}s (~{estimated_time_remaining:.0f}s remaining)"
else:
message = f"Task in progress: {time_completed:.0f}s"
self._display_text_on_node(message)
def _check_task_status(self, response: R) -> TaskStatus:
"""Check task status using the status extractor function"""
try:
@ -569,10 +1010,13 @@ class PollingOperation(Generic[T, R]):
def _poll_until_complete(self, client: ApiClient) -> R:
"""Poll until the task is complete"""
poll_count = 0
consecutive_errors = 0
max_consecutive_errors = min(5, self.max_retries * 2) # Limit consecutive errors
if self.progress_extractor:
progress = utils.ProgressBar(PROGRESS_BAR_MAX)
while True:
while poll_count < self.max_poll_attempts:
try:
poll_count += 1
logging.debug(f"[DEBUG] Polling attempt #{poll_count}")
@ -599,8 +1043,12 @@ class PollingOperation(Generic[T, R]):
data=request_dict,
)
# Successfully got a response, reset consecutive error count
consecutive_errors = 0
# Parse response
response_obj = self.poll_endpoint.response_model.model_validate(resp)
# Check if task is complete
status = self._check_task_status(response_obj)
logging.debug(f"[DEBUG] Task Status: {status}")
@ -612,7 +1060,15 @@ class PollingOperation(Generic[T, R]):
progress.update_absolute(new_progress, total=PROGRESS_BAR_MAX)
if status == TaskStatus.COMPLETED:
logging.debug("[DEBUG] Task completed successfully")
message = "Task completed successfully"
if self.result_url_extractor:
result_url = self.result_url_extractor(response_obj)
if result_url:
message = f"Result URL: {result_url}"
else:
message = "Task completed successfully!"
logging.debug(f"[DEBUG] {message}")
self._display_text_on_node(message)
self.final_response = response_obj
if self.progress_extractor:
progress.update(100)
@ -628,8 +1084,43 @@ class PollingOperation(Generic[T, R]):
logging.debug(
f"[DEBUG] Waiting {self.poll_interval} seconds before next poll"
)
for i in range(int(self.poll_interval)):
time_completed = (poll_count * self.poll_interval) + i
self._display_time_progress_on_node(time_completed)
time.sleep(1)
except (LocalNetworkError, ApiServerError) as e:
# For network-related errors, increment error count and potentially abort
consecutive_errors += 1
if consecutive_errors >= max_consecutive_errors:
raise Exception(
f"Polling aborted after {consecutive_errors} consecutive network errors: {str(e)}"
) from e
# Log the error but continue polling
logging.warning(
f"Network error during polling (attempt {poll_count}/{self.max_poll_attempts}): {str(e)}. "
f"Will retry in {self.poll_interval} seconds."
)
time.sleep(self.poll_interval)
except Exception as e:
# For other errors, increment count and potentially abort
consecutive_errors += 1
if consecutive_errors >= max_consecutive_errors or status == TaskStatus.FAILED:
raise Exception(
f"Polling aborted after {consecutive_errors} consecutive errors: {str(e)}"
) from e
logging.error(f"[DEBUG] Polling error: {str(e)}")
raise Exception(f"Error while polling: {str(e)}")
logging.warning(
f"Error during polling (attempt {poll_count}/{self.max_poll_attempts}): {str(e)}. "
f"Will retry in {self.poll_interval} seconds."
)
time.sleep(self.poll_interval)
# If we've exhausted all polling attempts
raise Exception(
f"Polling timed out after {poll_count} attempts ({poll_count * self.poll_interval} seconds). "
f"The operation may still be running on the server but is taking longer than expected."
)

125
comfy_api_nodes/apis/request_logger.py Normal file
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@ -0,0 +1,125 @@
import os
import datetime
import json
import logging
import folder_paths
# Get the logger instance
logger = logging.getLogger(__name__)
def get_log_directory():
"""
Ensures the API log directory exists within ComfyUI's temp directory
and returns its path.
"""
base_temp_dir = folder_paths.get_temp_directory()
log_dir = os.path.join(base_temp_dir, "api_logs")
try:
os.makedirs(log_dir, exist_ok=True)
except Exception as e:
logger.error(f"Error creating API log directory {log_dir}: {e}")
# Fallback to base temp directory if sub-directory creation fails
return base_temp_dir
return log_dir
def _format_data_for_logging(data):
"""Helper to format data (dict, str, bytes) for logging."""
if isinstance(data, bytes):
try:
return data.decode('utf-8') # Try to decode as text
except UnicodeDecodeError:
return f"[Binary data of length {len(data)} bytes]"
elif isinstance(data, (dict, list)):
try:
return json.dumps(data, indent=2, ensure_ascii=False)
except TypeError:
return str(data) # Fallback for non-serializable objects
return str(data)
def log_request_response(
operation_id: str,
request_method: str,
request_url: str,
request_headers: dict | None = None,
request_params: dict | None = None,
request_data: any = None,
response_status_code: int | None = None,
response_headers: dict | None = None,
response_content: any = None,
error_message: str | None = None
):
"""
Logs API request and response details to a file in the temp/api_logs directory.
"""
log_dir = get_log_directory()
timestamp = datetime.datetime.now().strftime("%Y%m%d_%H%M%S_%f")
filename = f"{timestamp}_{operation_id.replace('/', '_').replace(':', '_')}.log"
filepath = os.path.join(log_dir, filename)
log_content = []
log_content.append(f"Timestamp: {datetime.datetime.now().isoformat()}")
log_content.append(f"Operation ID: {operation_id}")
log_content.append("-" * 30 + " REQUEST " + "-" * 30)
log_content.append(f"Method: {request_method}")
log_content.append(f"URL: {request_url}")
if request_headers:
log_content.append(f"Headers:\n{_format_data_for_logging(request_headers)}")
if request_params:
log_content.append(f"Params:\n{_format_data_for_logging(request_params)}")
if request_data:
log_content.append(f"Data/Body:\n{_format_data_for_logging(request_data)}")
log_content.append("\n" + "-" * 30 + " RESPONSE " + "-" * 30)
if response_status_code is not None:
log_content.append(f"Status Code: {response_status_code}")
if response_headers:
log_content.append(f"Headers:\n{_format_data_for_logging(response_headers)}")
if response_content:
log_content.append(f"Content:\n{_format_data_for_logging(response_content)}")
if error_message:
log_content.append(f"Error:\n{error_message}")
try:
with open(filepath, "w", encoding="utf-8") as f:
f.write("\n".join(log_content))
logger.debug(f"API log saved to: {filepath}")
except Exception as e:
logger.error(f"Error writing API log to {filepath}: {e}")
if __name__ == '__main__':
# Example usage (for testing the logger directly)
logger.setLevel(logging.DEBUG)
# Mock folder_paths for direct execution if not running within ComfyUI full context
if not hasattr(folder_paths, 'get_temp_directory'):
class MockFolderPaths:
def get_temp_directory(self):
# Create a local temp dir for testing if needed
p = os.path.join(os.path.dirname(__file__), 'temp_test_logs')
os.makedirs(p, exist_ok=True)
return p
folder_paths = MockFolderPaths()
log_request_response(
operation_id="test_operation_get",
request_method="GET",
request_url="https://api.example.com/test",
request_headers={"Authorization": "Bearer testtoken"},
request_params={"param1": "value1"},
response_status_code=200,
response_content={"message": "Success!"}
)
log_request_response(
operation_id="test_operation_post_error",
request_method="POST",
request_url="https://api.example.com/submit",
request_data={"key": "value", "nested": {"num": 123}},
error_message="Connection timed out"
)
log_request_response(
operation_id="test_binary_response",
request_method="GET",
request_url="https://api.example.com/image.png",
response_status_code=200,
response_content=b'\x89PNG\r\n\x1a\n\x00\x00\x00\rIHDR...' # Sample binary data
)

57
comfy_api_nodes/apis/rodin_api.py Normal file
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@ -0,0 +1,57 @@
from __future__ import annotations
from enum import Enum
from typing import Optional, List
from pydantic import BaseModel, Field
class Rodin3DGenerateRequest(BaseModel):
seed: int = Field(..., description="seed_")
tier: str = Field(..., description="Tier of generation.")
material: str = Field(..., description="The material type.")
quality: str = Field(..., description="The generation quality of the mesh.")
mesh_mode: str = Field(..., description="It controls the type of faces of generated models.")
class GenerateJobsData(BaseModel):
uuids: List[str] = Field(..., description="str LIST")
subscription_key: str = Field(..., description="subscription key")
class Rodin3DGenerateResponse(BaseModel):
message: Optional[str] = Field(None, description="Return message.")
prompt: Optional[str] = Field(None, description="Generated Prompt from image.")
submit_time: Optional[str] = Field(None, description="Submit Time")
uuid: Optional[str] = Field(None, description="Task str")
jobs: Optional[GenerateJobsData] = Field(None, description="Details of jobs")
class JobStatus(str, Enum):
"""
Status for jobs
"""
Done = "Done"
Failed = "Failed"
Generating = "Generating"
Waiting = "Waiting"
class Rodin3DCheckStatusRequest(BaseModel):
subscription_key: str = Field(..., description="subscription from generate endpoint")
class JobItem(BaseModel):
uuid: str = Field(..., description="uuid")
status: JobStatus = Field(...,description="Status Currently")
class Rodin3DCheckStatusResponse(BaseModel):
jobs: List[JobItem] = Field(..., description="Job status List")
class Rodin3DDownloadRequest(BaseModel):
task_uuid: str = Field(..., description="Task str")
class RodinResourceItem(BaseModel):
url: str = Field(..., description="Download Url")
name: str = Field(..., description="File name with ext")
class Rodin3DDownloadResponse(BaseModel):
list: List[RodinResourceItem] = Field(..., description="Source List")

275
comfy_api_nodes/apis/tripo_api.py Normal file
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@ -0,0 +1,275 @@
from __future__ import annotations
from comfy_api_nodes.apis import (
TripoModelVersion,
TripoTextureQuality,
)
from enum import Enum
from typing import Optional, List, Dict, Any, Union
from pydantic import BaseModel, Field, RootModel
class TripoStyle(str, Enum):
PERSON_TO_CARTOON = "person:person2cartoon"
ANIMAL_VENOM = "animal:venom"
OBJECT_CLAY = "object:clay"
OBJECT_STEAMPUNK = "object:steampunk"
OBJECT_CHRISTMAS = "object:christmas"
OBJECT_BARBIE = "object:barbie"
GOLD = "gold"
ANCIENT_BRONZE = "ancient_bronze"
NONE = "None"
class TripoTaskType(str, Enum):
TEXT_TO_MODEL = "text_to_model"
IMAGE_TO_MODEL = "image_to_model"
MULTIVIEW_TO_MODEL = "multiview_to_model"
TEXTURE_MODEL = "texture_model"
REFINE_MODEL = "refine_model"
ANIMATE_PRERIGCHECK = "animate_prerigcheck"
ANIMATE_RIG = "animate_rig"
ANIMATE_RETARGET = "animate_retarget"
STYLIZE_MODEL = "stylize_model"
CONVERT_MODEL = "convert_model"
class TripoTextureAlignment(str, Enum):
ORIGINAL_IMAGE = "original_image"
GEOMETRY = "geometry"
class TripoOrientation(str, Enum):
ALIGN_IMAGE = "align_image"
DEFAULT = "default"
class TripoOutFormat(str, Enum):
GLB = "glb"
FBX = "fbx"
class TripoTopology(str, Enum):
BIP = "bip"
QUAD = "quad"
class TripoSpec(str, Enum):
MIXAMO = "mixamo"
TRIPO = "tripo"
class TripoAnimation(str, Enum):
IDLE = "preset:idle"
WALK = "preset:walk"
CLIMB = "preset:climb"
JUMP = "preset:jump"
RUN = "preset:run"
SLASH = "preset:slash"
SHOOT = "preset:shoot"
HURT = "preset:hurt"
FALL = "preset:fall"
TURN = "preset:turn"
class TripoStylizeStyle(str, Enum):
LEGO = "lego"
VOXEL = "voxel"
VORONOI = "voronoi"
MINECRAFT = "minecraft"
class TripoConvertFormat(str, Enum):
GLTF = "GLTF"
USDZ = "USDZ"
FBX = "FBX"
OBJ = "OBJ"
STL = "STL"
_3MF = "3MF"
class TripoTextureFormat(str, Enum):
BMP = "BMP"
DPX = "DPX"
HDR = "HDR"
JPEG = "JPEG"
OPEN_EXR = "OPEN_EXR"
PNG = "PNG"
TARGA = "TARGA"
TIFF = "TIFF"
WEBP = "WEBP"
class TripoTaskStatus(str, Enum):
QUEUED = "queued"
RUNNING = "running"
SUCCESS = "success"
FAILED = "failed"
CANCELLED = "cancelled"
UNKNOWN = "unknown"
BANNED = "banned"
EXPIRED = "expired"
class TripoFileTokenReference(BaseModel):
type: Optional[str] = Field(None, description='The type of the reference')
file_token: str
class TripoUrlReference(BaseModel):
type: Optional[str] = Field(None, description='The type of the reference')
url: str
class TripoObjectStorage(BaseModel):
bucket: str
key: str
class TripoObjectReference(BaseModel):
type: str
object: TripoObjectStorage
class TripoFileEmptyReference(BaseModel):
pass
class TripoFileReference(RootModel):
root: Union[TripoFileTokenReference, TripoUrlReference, TripoObjectReference, TripoFileEmptyReference]
class TripoGetStsTokenRequest(BaseModel):
format: str = Field(..., description='The format of the image')
class TripoTextToModelRequest(BaseModel):
type: TripoTaskType = Field(TripoTaskType.TEXT_TO_MODEL, description='Type of task')
prompt: str = Field(..., description='The text prompt describing the model to generate', max_length=1024)
negative_prompt: Optional[str] = Field(None, description='The negative text prompt', max_length=1024)
model_version: Optional[TripoModelVersion] = TripoModelVersion.V2_5
face_limit: Optional[int] = Field(None, description='The number of faces to limit the generation to')
texture: Optional[bool] = Field(True, description='Whether to apply texture to the generated model')
pbr: Optional[bool] = Field(True, description='Whether to apply PBR to the generated model')
image_seed: Optional[int] = Field(None, description='The seed for the text')
model_seed: Optional[int] = Field(None, description='The seed for the model')
texture_seed: Optional[int] = Field(None, description='The seed for the texture')
texture_quality: Optional[TripoTextureQuality] = TripoTextureQuality.standard
style: Optional[TripoStyle] = None
auto_size: Optional[bool] = Field(False, description='Whether to auto-size the model')
quad: Optional[bool] = Field(False, description='Whether to apply quad to the generated model')
class TripoImageToModelRequest(BaseModel):
type: TripoTaskType = Field(TripoTaskType.IMAGE_TO_MODEL, description='Type of task')
file: TripoFileReference = Field(..., description='The file reference to convert to a model')
model_version: Optional[TripoModelVersion] = Field(None, description='The model version to use for generation')
face_limit: Optional[int] = Field(None, description='The number of faces to limit the generation to')
texture: Optional[bool] = Field(True, description='Whether to apply texture to the generated model')
pbr: Optional[bool] = Field(True, description='Whether to apply PBR to the generated model')
model_seed: Optional[int] = Field(None, description='The seed for the model')
texture_seed: Optional[int] = Field(None, description='The seed for the texture')
texture_quality: Optional[TripoTextureQuality] = TripoTextureQuality.standard
texture_alignment: Optional[TripoTextureAlignment] = Field(TripoTextureAlignment.ORIGINAL_IMAGE, description='The texture alignment method')
style: Optional[TripoStyle] = Field(None, description='The style to apply to the generated model')
auto_size: Optional[bool] = Field(False, description='Whether to auto-size the model')
orientation: Optional[TripoOrientation] = TripoOrientation.DEFAULT
quad: Optional[bool] = Field(False, description='Whether to apply quad to the generated model')
class TripoMultiviewToModelRequest(BaseModel):
type: TripoTaskType = TripoTaskType.MULTIVIEW_TO_MODEL
files: List[TripoFileReference] = Field(..., description='The file references to convert to a model')
model_version: Optional[TripoModelVersion] = Field(None, description='The model version to use for generation')
orthographic_projection: Optional[bool] = Field(False, description='Whether to use orthographic projection')
face_limit: Optional[int] = Field(None, description='The number of faces to limit the generation to')
texture: Optional[bool] = Field(True, description='Whether to apply texture to the generated model')
pbr: Optional[bool] = Field(True, description='Whether to apply PBR to the generated model')
model_seed: Optional[int] = Field(None, description='The seed for the model')
texture_seed: Optional[int] = Field(None, description='The seed for the texture')
texture_quality: Optional[TripoTextureQuality] = TripoTextureQuality.standard
texture_alignment: Optional[TripoTextureAlignment] = TripoTextureAlignment.ORIGINAL_IMAGE
auto_size: Optional[bool] = Field(False, description='Whether to auto-size the model')
orientation: Optional[TripoOrientation] = Field(TripoOrientation.DEFAULT, description='The orientation for the model')
quad: Optional[bool] = Field(False, description='Whether to apply quad to the generated model')
class TripoTextureModelRequest(BaseModel):
type: TripoTaskType = Field(TripoTaskType.TEXTURE_MODEL, description='Type of task')
original_model_task_id: str = Field(..., description='The task ID of the original model')
texture: Optional[bool] = Field(True, description='Whether to apply texture to the model')
pbr: Optional[bool] = Field(True, description='Whether to apply PBR to the model')
model_seed: Optional[int] = Field(None, description='The seed for the model')
texture_seed: Optional[int] = Field(None, description='The seed for the texture')
texture_quality: Optional[TripoTextureQuality] = Field(None, description='The quality of the texture')
texture_alignment: Optional[TripoTextureAlignment] = Field(TripoTextureAlignment.ORIGINAL_IMAGE, description='The texture alignment method')
class TripoRefineModelRequest(BaseModel):
type: TripoTaskType = Field(TripoTaskType.REFINE_MODEL, description='Type of task')
draft_model_task_id: str = Field(..., description='The task ID of the draft model')
class TripoAnimatePrerigcheckRequest(BaseModel):
type: TripoTaskType = Field(TripoTaskType.ANIMATE_PRERIGCHECK, description='Type of task')
original_model_task_id: str = Field(..., description='The task ID of the original model')
class TripoAnimateRigRequest(BaseModel):
type: TripoTaskType = Field(TripoTaskType.ANIMATE_RIG, description='Type of task')
original_model_task_id: str = Field(..., description='The task ID of the original model')
out_format: Optional[TripoOutFormat] = Field(TripoOutFormat.GLB, description='The output format')
spec: Optional[TripoSpec] = Field(TripoSpec.TRIPO, description='The specification for rigging')
class TripoAnimateRetargetRequest(BaseModel):
type: TripoTaskType = Field(TripoTaskType.ANIMATE_RETARGET, description='Type of task')
original_model_task_id: str = Field(..., description='The task ID of the original model')
animation: TripoAnimation = Field(..., description='The animation to apply')
out_format: Optional[TripoOutFormat] = Field(TripoOutFormat.GLB, description='The output format')
bake_animation: Optional[bool] = Field(True, description='Whether to bake the animation')
class TripoStylizeModelRequest(BaseModel):
type: TripoTaskType = Field(TripoTaskType.STYLIZE_MODEL, description='Type of task')
style: TripoStylizeStyle = Field(..., description='The style to apply to the model')
original_model_task_id: str = Field(..., description='The task ID of the original model')
block_size: Optional[int] = Field(80, description='The block size for stylization')
class TripoConvertModelRequest(BaseModel):
type: TripoTaskType = Field(TripoTaskType.CONVERT_MODEL, description='Type of task')
format: TripoConvertFormat = Field(..., description='The format to convert to')
original_model_task_id: str = Field(..., description='The task ID of the original model')
quad: Optional[bool] = Field(False, description='Whether to apply quad to the model')
force_symmetry: Optional[bool] = Field(False, description='Whether to force symmetry')
face_limit: Optional[int] = Field(10000, description='The number of faces to limit the conversion to')
flatten_bottom: Optional[bool] = Field(False, description='Whether to flatten the bottom of the model')
flatten_bottom_threshold: Optional[float] = Field(0.01, description='The threshold for flattening the bottom')
texture_size: Optional[int] = Field(4096, description='The size of the texture')
texture_format: Optional[TripoTextureFormat] = Field(TripoTextureFormat.JPEG, description='The format of the texture')
pivot_to_center_bottom: Optional[bool] = Field(False, description='Whether to pivot to the center bottom')
class TripoTaskRequest(RootModel):
root: Union[
TripoTextToModelRequest,
TripoImageToModelRequest,
TripoMultiviewToModelRequest,
TripoTextureModelRequest,
TripoRefineModelRequest,
TripoAnimatePrerigcheckRequest,
TripoAnimateRigRequest,
TripoAnimateRetargetRequest,
TripoStylizeModelRequest,
TripoConvertModelRequest
]
class TripoTaskOutput(BaseModel):
model: Optional[str] = Field(None, description='URL to the model')
base_model: Optional[str] = Field(None, description='URL to the base model')
pbr_model: Optional[str] = Field(None, description='URL to the PBR model')
rendered_image: Optional[str] = Field(None, description='URL to the rendered image')
riggable: Optional[bool] = Field(None, description='Whether the model is riggable')
class TripoTask(BaseModel):
task_id: str = Field(..., description='The task ID')
type: Optional[str] = Field(None, description='The type of task')
status: Optional[TripoTaskStatus] = Field(None, description='The status of the task')
input: Optional[Dict[str, Any]] = Field(None, description='The input parameters for the task')
output: Optional[TripoTaskOutput] = Field(None, description='The output of the task')
progress: Optional[int] = Field(None, description='The progress of the task', ge=0, le=100)
create_time: Optional[int] = Field(None, description='The creation time of the task')
running_left_time: Optional[int] = Field(None, description='The estimated time left for the task')
queue_position: Optional[int] = Field(None, description='The position in the queue')
class TripoTaskResponse(BaseModel):
code: int = Field(0, description='The response code')
data: TripoTask = Field(..., description='The task data')
class TripoGeneralResponse(BaseModel):
code: int = Field(0, description='The response code')
data: Dict[str, str] = Field(..., description='The task ID data')
class TripoBalanceData(BaseModel):
balance: float = Field(..., description='The account balance')
frozen: float = Field(..., description='The frozen balance')
class TripoBalanceResponse(BaseModel):
code: int = Field(0, description='The response code')
data: TripoBalanceData = Field(..., description='The balance data')
class TripoErrorResponse(BaseModel):
code: int = Field(..., description='The error code')
message: str = Field(..., description='The error message')
suggestion: str = Field(..., description='The suggestion for fixing the error')

207
comfy_api_nodes/nodes_bfl.py
View File

@ -1,5 +1,6 @@
import io
from inspect import cleandoc
from typing import Union, Optional
from comfy.comfy_types.node_typing import IO, ComfyNodeABC
from comfy_api_nodes.apis.bfl_api import (
BFLStatus,
@ -8,6 +9,7 @@ from comfy_api_nodes.apis.bfl_api import (
BFLFluxCannyImageRequest,
BFLFluxDepthImageRequest,
BFLFluxProGenerateRequest,
BFLFluxKontextProGenerateRequest,
BFLFluxProUltraGenerateRequest,
BFLFluxProGenerateResponse,
)
@ -30,6 +32,7 @@ import requests
import torch
import base64
import time
from server import PromptServer
def convert_mask_to_image(mask: torch.Tensor):
@ -42,14 +45,19 @@ def convert_mask_to_image(mask: torch.Tensor):
def handle_bfl_synchronous_operation(
operation: SynchronousOperation, timeout_bfl_calls=360
operation: SynchronousOperation,
timeout_bfl_calls=360,
node_id: Union[str, None] = None,
):
response_api: BFLFluxProGenerateResponse = operation.execute()
return _poll_until_generated(
response_api.polling_url, timeout=timeout_bfl_calls
response_api.polling_url, timeout=timeout_bfl_calls, node_id=node_id
)
def _poll_until_generated(polling_url: str, timeout=360):
def _poll_until_generated(
polling_url: str, timeout=360, node_id: Union[str, None] = None
):
# used bfl-comfy-nodes to verify code implementation:
# https://github.com/black-forest-labs/bfl-comfy-nodes/tree/main
start_time = time.time()
@ -61,11 +69,21 @@ def _poll_until_generated(polling_url: str, timeout=360):
request = requests.Request(method=HttpMethod.GET, url=polling_url)
# NOTE: should True loop be replaced with checking if workflow has been interrupted?
while True:
if node_id:
time_elapsed = time.time() - start_time
PromptServer.instance.send_progress_text(
f"Generating ({time_elapsed:.0f}s)", node_id
)
response = requests.Session().send(request.prepare())
if response.status_code == 200:
result = response.json()
if result["status"] == BFLStatus.ready:
img_url = result["result"]["sample"]
if node_id:
PromptServer.instance.send_progress_text(
f"Result URL: {img_url}", node_id
)
img_response = requests.get(img_url)
return process_image_response(img_response)
elif result["status"] in [
@ -180,6 +198,7 @@ class FluxProUltraImageNode(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -212,6 +231,7 @@ class FluxProUltraImageNode(ComfyNodeABC):
seed=0,
image_prompt=None,
image_prompt_strength=0.1,
unique_id: Union[str, None] = None,
**kwargs,
):
if image_prompt is None:
@ -246,10 +266,149 @@ class FluxProUltraImageNode(ComfyNodeABC):
),
auth_kwargs=kwargs,
)
output_image = handle_bfl_synchronous_operation(operation)
output_image = handle_bfl_synchronous_operation(operation, node_id=unique_id)
return (output_image,)
class FluxKontextProImageNode(ComfyNodeABC):
"""
Edits images using Flux.1 Kontext [pro] via api based on prompt and aspect ratio.
"""
MINIMUM_RATIO = 1 / 4
MAXIMUM_RATIO = 4 / 1
MINIMUM_RATIO_STR = "1:4"
MAXIMUM_RATIO_STR = "4:1"
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"prompt": (
IO.STRING,
{
"multiline": True,
"default": "",
"tooltip": "Prompt for the image generation - specify what and how to edit.",
},
),
"aspect_ratio": (
IO.STRING,
{
"default": "16:9",
"tooltip": "Aspect ratio of image; must be between 1:4 and 4:1.",
},
),
"guidance": (
IO.FLOAT,
{
"default": 3.0,
"min": 0.1,
"max": 99.0,
"step": 0.1,
"tooltip": "Guidance strength for the image generation process"
},
),
"steps": (
IO.INT,
{
"default": 50,
"min": 1,
"max": 150,
"tooltip": "Number of steps for the image generation process"
},
),
"seed": (
IO.INT,
{
"default": 1234,
"min": 0,
"max": 0xFFFFFFFFFFFFFFFF,
"control_after_generate": True,
"tooltip": "The random seed used for creating the noise.",
},
),
"prompt_upsampling": (
IO.BOOLEAN,
{
"default": False,
"tooltip": "Whether to perform upsampling on the prompt. If active, automatically modifies the prompt for more creative generation, but results are nondeterministic (same seed will not produce exactly the same result).",
},
),
},
"optional": {
"input_image": (IO.IMAGE,),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = (IO.IMAGE,)
DESCRIPTION = cleandoc(__doc__ or "") # Handle potential None value
FUNCTION = "api_call"
API_NODE = True
CATEGORY = "api node/image/BFL"
BFL_PATH = "/proxy/bfl/flux-kontext-pro/generate"
def api_call(
self,
prompt: str,
aspect_ratio: str,
guidance: float,
steps: int,
input_image: Optional[torch.Tensor]=None,
seed=0,
prompt_upsampling=False,
unique_id: Union[str, None] = None,
**kwargs,
):
aspect_ratio = validate_aspect_ratio(
aspect_ratio,
minimum_ratio=self.MINIMUM_RATIO,
maximum_ratio=self.MAXIMUM_RATIO,
minimum_ratio_str=self.MINIMUM_RATIO_STR,
maximum_ratio_str=self.MAXIMUM_RATIO_STR,
)
if input_image is None:
validate_string(prompt, strip_whitespace=False)
operation = SynchronousOperation(
endpoint=ApiEndpoint(
path=self.BFL_PATH,
method=HttpMethod.POST,
request_model=BFLFluxKontextProGenerateRequest,
response_model=BFLFluxProGenerateResponse,
),
request=BFLFluxKontextProGenerateRequest(
prompt=prompt,
prompt_upsampling=prompt_upsampling,
guidance=round(guidance, 1),
steps=steps,
seed=seed,
aspect_ratio=aspect_ratio,
input_image=(
input_image
if input_image is None
else convert_image_to_base64(input_image)
)
),
auth_kwargs=kwargs,
)
output_image = handle_bfl_synchronous_operation(operation, node_id=unique_id)
return (output_image,)
class FluxKontextMaxImageNode(FluxKontextProImageNode):
"""
Edits images using Flux.1 Kontext [max] via api based on prompt and aspect ratio.
"""
DESCRIPTION = cleandoc(__doc__ or "")
BFL_PATH = "/proxy/bfl/flux-kontext-max/generate"
class FluxProImageNode(ComfyNodeABC):
"""
@ -320,6 +479,7 @@ class FluxProImageNode(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -338,6 +498,7 @@ class FluxProImageNode(ComfyNodeABC):
seed=0,
image_prompt=None,
# image_prompt_strength=0.1,
unique_id: Union[str, None] = None,
**kwargs,
):
image_prompt = (
@ -363,7 +524,7 @@ class FluxProImageNode(ComfyNodeABC):
),
auth_kwargs=kwargs,
)
output_image = handle_bfl_synchronous_operation(operation)
output_image = handle_bfl_synchronous_operation(operation, node_id=unique_id)
return (output_image,)
@ -457,11 +618,11 @@ class FluxProExpandNode(ComfyNodeABC):
},
),
},
"optional": {
},
"optional": {},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -483,6 +644,7 @@ class FluxProExpandNode(ComfyNodeABC):
steps: int,
guidance: float,
seed=0,
unique_id: Union[str, None] = None,
**kwargs,
):
image = convert_image_to_base64(image)
@ -508,7 +670,7 @@ class FluxProExpandNode(ComfyNodeABC):
),
auth_kwargs=kwargs,
)
output_image = handle_bfl_synchronous_operation(operation)
output_image = handle_bfl_synchronous_operation(operation, node_id=unique_id)
return (output_image,)
@ -568,11 +730,11 @@ class FluxProFillNode(ComfyNodeABC):
},
),
},
"optional": {
},
"optional": {},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -591,13 +753,14 @@ class FluxProFillNode(ComfyNodeABC):
steps: int,
guidance: float,
seed=0,
unique_id: Union[str, None] = None,
**kwargs,
):
# prepare mask
mask = resize_mask_to_image(mask, image)
mask = convert_image_to_base64(convert_mask_to_image(mask))
# make sure image will have alpha channel removed
image = convert_image_to_base64(image[:,:,:,:3])
image = convert_image_to_base64(image[:, :, :, :3])
operation = SynchronousOperation(
endpoint=ApiEndpoint(
@ -617,7 +780,7 @@ class FluxProFillNode(ComfyNodeABC):
),
auth_kwargs=kwargs,
)
output_image = handle_bfl_synchronous_operation(operation)
output_image = handle_bfl_synchronous_operation(operation, node_id=unique_id)
return (output_image,)
@ -702,11 +865,11 @@ class FluxProCannyNode(ComfyNodeABC):
},
),
},
"optional": {
},
"optional": {},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -727,9 +890,10 @@ class FluxProCannyNode(ComfyNodeABC):
steps: int,
guidance: float,
seed=0,
unique_id: Union[str, None] = None,
**kwargs,
):
control_image = convert_image_to_base64(control_image[:,:,:,:3])
control_image = convert_image_to_base64(control_image[:, :, :, :3])
preprocessed_image = None
# scale canny threshold between 0-500, to match BFL's API
@ -765,7 +929,7 @@ class FluxProCannyNode(ComfyNodeABC):
),
auth_kwargs=kwargs,
)
output_image = handle_bfl_synchronous_operation(operation)
output_image = handle_bfl_synchronous_operation(operation, node_id=unique_id)
return (output_image,)
@ -830,11 +994,11 @@ class FluxProDepthNode(ComfyNodeABC):
},
),
},
"optional": {
},
"optional": {},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -853,6 +1017,7 @@ class FluxProDepthNode(ComfyNodeABC):
steps: int,
guidance: float,
seed=0,
unique_id: Union[str, None] = None,
**kwargs,
):
control_image = convert_image_to_base64(control_image[:,:,:,:3])
@ -880,7 +1045,7 @@ class FluxProDepthNode(ComfyNodeABC):
),
auth_kwargs=kwargs,
)
output_image = handle_bfl_synchronous_operation(operation)
output_image = handle_bfl_synchronous_operation(operation, node_id=unique_id)
return (output_image,)
@ -889,6 +1054,8 @@ class FluxProDepthNode(ComfyNodeABC):
NODE_CLASS_MAPPINGS = {
"FluxProUltraImageNode": FluxProUltraImageNode,
# "FluxProImageNode": FluxProImageNode,
"FluxKontextProImageNode": FluxKontextProImageNode,
"FluxKontextMaxImageNode": FluxKontextMaxImageNode,
"FluxProExpandNode": FluxProExpandNode,
"FluxProFillNode": FluxProFillNode,
"FluxProCannyNode": FluxProCannyNode,
@ -899,6 +1066,8 @@ NODE_CLASS_MAPPINGS = {
NODE_DISPLAY_NAME_MAPPINGS = {
"FluxProUltraImageNode": "Flux 1.1 [pro] Ultra Image",
# "FluxProImageNode": "Flux 1.1 [pro] Image",
"FluxKontextProImageNode": "Flux.1 Kontext [pro] Image",
"FluxKontextMaxImageNode": "Flux.1 Kontext [max] Image",
"FluxProExpandNode": "Flux.1 Expand Image",
"FluxProFillNode": "Flux.1 Fill Image",
"FluxProCannyNode": "Flux.1 Canny Control Image",

446
comfy_api_nodes/nodes_gemini.py Normal file
View File

@ -0,0 +1,446 @@
"""
API Nodes for Gemini Multimodal LLM Usage via Remote API
See: https://cloud.google.com/vertex-ai/generative-ai/docs/model-reference/inference
"""
import os
from enum import Enum
from typing import Optional, Literal
import torch
import folder_paths
from comfy.comfy_types.node_typing import IO, ComfyNodeABC, InputTypeDict
from server import PromptServer
from comfy_api_nodes.apis import (
GeminiContent,
GeminiGenerateContentRequest,
GeminiGenerateContentResponse,
GeminiInlineData,
GeminiPart,
GeminiMimeType,
)
from comfy_api_nodes.apis.client import (
ApiEndpoint,
HttpMethod,
SynchronousOperation,
)
from comfy_api_nodes.apinode_utils import (
validate_string,
audio_to_base64_string,
video_to_base64_string,
tensor_to_base64_string,
)
GEMINI_BASE_ENDPOINT = "/proxy/vertexai/gemini"
GEMINI_MAX_INPUT_FILE_SIZE = 20 * 1024 * 1024 # 20 MB
class GeminiModel(str, Enum):
"""
Gemini Model Names allowed by comfy-api
"""
gemini_2_5_pro_preview_05_06 = "gemini-2.5-pro-preview-05-06"
gemini_2_5_flash_preview_04_17 = "gemini-2.5-flash-preview-04-17"
def get_gemini_endpoint(
model: GeminiModel,
) -> ApiEndpoint[GeminiGenerateContentRequest, GeminiGenerateContentResponse]:
"""
Get the API endpoint for a given Gemini model.
Args:
model: The Gemini model to use, either as enum or string value.
Returns:
ApiEndpoint configured for the specific Gemini model.
"""
if isinstance(model, str):
model = GeminiModel(model)
return ApiEndpoint(
path=f"{GEMINI_BASE_ENDPOINT}/{model.value}",
method=HttpMethod.POST,
request_model=GeminiGenerateContentRequest,
response_model=GeminiGenerateContentResponse,
)
class GeminiNode(ComfyNodeABC):
"""
Node to generate text responses from a Gemini model.
This node allows users to interact with Google's Gemini AI models, providing
multimodal inputs (text, images, audio, video, files) to generate coherent
text responses. The node works with the latest Gemini models, handling the
API communication and response parsing.
"""
@classmethod
def INPUT_TYPES(cls) -> InputTypeDict:
return {
"required": {
"prompt": (
IO.STRING,
{
"multiline": True,
"default": "",
"tooltip": "Text inputs to the model, used to generate a response. You can include detailed instructions, questions, or context for the model.",
},
),
"model": (
IO.COMBO,
{
"tooltip": "The Gemini model to use for generating responses.",
"options": [model.value for model in GeminiModel],
"default": GeminiModel.gemini_2_5_pro_preview_05_06.value,
},
),
"seed": (
IO.INT,
{
"default": 42,
"min": 0,
"max": 0xFFFFFFFFFFFFFFFF,
"control_after_generate": True,
"tooltip": "When seed is fixed to a specific value, the model makes a best effort to provide the same response for repeated requests. Deterministic output isn't guaranteed. Also, changing the model or parameter settings, such as the temperature, can cause variations in the response even when you use the same seed value. By default, a random seed value is used.",
},
),
},
"optional": {
"images": (
IO.IMAGE,
{
"default": None,
"tooltip": "Optional image(s) to use as context for the model. To include multiple images, you can use the Batch Images node.",
},
),
"audio": (
IO.AUDIO,
{
"tooltip": "Optional audio to use as context for the model.",
"default": None,
},
),
"video": (
IO.VIDEO,
{
"tooltip": "Optional video to use as context for the model.",
"default": None,
},
),
"files": (
"GEMINI_INPUT_FILES",
{
"default": None,
"tooltip": "Optional file(s) to use as context for the model. Accepts inputs from the Gemini Generate Content Input Files node.",
},
),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
DESCRIPTION = "Generate text responses with Google's Gemini AI model. You can provide multiple types of inputs (text, images, audio, video) as context for generating more relevant and meaningful responses."
RETURN_TYPES = ("STRING",)
FUNCTION = "api_call"
CATEGORY = "api node/text/Gemini"
API_NODE = True
def get_parts_from_response(
self, response: GeminiGenerateContentResponse
) -> list[GeminiPart]:
"""
Extract all parts from the Gemini API response.
Args:
response: The API response from Gemini.
Returns:
List of response parts from the first candidate.
"""
return response.candidates[0].content.parts
def get_parts_by_type(
self, response: GeminiGenerateContentResponse, part_type: Literal["text"] | str
) -> list[GeminiPart]:
"""
Filter response parts by their type.
Args:
response: The API response from Gemini.
part_type: Type of parts to extract ("text" or a MIME type).
Returns:
List of response parts matching the requested type.
"""
parts = []
for part in self.get_parts_from_response(response):
if part_type == "text" and hasattr(part, "text") and part.text:
parts.append(part)
elif (
hasattr(part, "inlineData")
and part.inlineData
and part.inlineData.mimeType == part_type
):
parts.append(part)
# Skip parts that don't match the requested type
return parts
def get_text_from_response(self, response: GeminiGenerateContentResponse) -> str:
"""
Extract and concatenate all text parts from the response.
Args:
response: The API response from Gemini.
Returns:
Combined text from all text parts in the response.
"""
parts = self.get_parts_by_type(response, "text")
return "\n".join([part.text for part in parts])
def create_video_parts(self, video_input: IO.VIDEO, **kwargs) -> list[GeminiPart]:
"""
Convert video input to Gemini API compatible parts.
Args:
video_input: Video tensor from ComfyUI.
**kwargs: Additional arguments to pass to the conversion function.
Returns:
List of GeminiPart objects containing the encoded video.
"""
from comfy_api.util import VideoContainer, VideoCodec
base_64_string = video_to_base64_string(
video_input,
container_format=VideoContainer.MP4,
codec=VideoCodec.H264
)
return [
GeminiPart(
inlineData=GeminiInlineData(
mimeType=GeminiMimeType.video_mp4,
data=base_64_string,
)
)
]
def create_audio_parts(self, audio_input: IO.AUDIO) -> list[GeminiPart]:
"""
Convert audio input to Gemini API compatible parts.
Args:
audio_input: Audio input from ComfyUI, containing waveform tensor and sample rate.
Returns:
List of GeminiPart objects containing the encoded audio.
"""
audio_parts: list[GeminiPart] = []
for batch_index in range(audio_input["waveform"].shape[0]):
# Recreate an IO.AUDIO object for the given batch dimension index
audio_at_index = {
"waveform": audio_input["waveform"][batch_index].unsqueeze(0),
"sample_rate": audio_input["sample_rate"],
}
# Convert to MP3 format for compatibility with Gemini API
audio_bytes = audio_to_base64_string(
audio_at_index,
container_format="mp3",
codec_name="libmp3lame",
)
audio_parts.append(
GeminiPart(
inlineData=GeminiInlineData(
mimeType=GeminiMimeType.audio_mp3,
data=audio_bytes,
)
)
)
return audio_parts
def create_image_parts(self, image_input: torch.Tensor) -> list[GeminiPart]:
"""
Convert image tensor input to Gemini API compatible parts.
Args:
image_input: Batch of image tensors from ComfyUI.
Returns:
List of GeminiPart objects containing the encoded images.
"""
image_parts: list[GeminiPart] = []
for image_index in range(image_input.shape[0]):
image_as_b64 = tensor_to_base64_string(
image_input[image_index].unsqueeze(0)
)
image_parts.append(
GeminiPart(
inlineData=GeminiInlineData(
mimeType=GeminiMimeType.image_png,
data=image_as_b64,
)
)
)
return image_parts
def create_text_part(self, text: str) -> GeminiPart:
"""
Create a text part for the Gemini API request.
Args:
text: The text content to include in the request.
Returns:
A GeminiPart object with the text content.
"""
return GeminiPart(text=text)
def api_call(
self,
prompt: str,
model: GeminiModel,
images: Optional[IO.IMAGE] = None,
audio: Optional[IO.AUDIO] = None,
video: Optional[IO.VIDEO] = None,
files: Optional[list[GeminiPart]] = None,
unique_id: Optional[str] = None,
**kwargs,
) -> tuple[str]:
# Validate inputs
validate_string(prompt, strip_whitespace=False)
# Create parts list with text prompt as the first part
parts: list[GeminiPart] = [self.create_text_part(prompt)]
# Add other modal parts
if images is not None:
image_parts = self.create_image_parts(images)
parts.extend(image_parts)
if audio is not None:
parts.extend(self.create_audio_parts(audio))
if video is not None:
parts.extend(self.create_video_parts(video))
if files is not None:
parts.extend(files)
# Create response
response = SynchronousOperation(
endpoint=get_gemini_endpoint(model),
request=GeminiGenerateContentRequest(
contents=[
GeminiContent(
role="user",
parts=parts,
)
]
),
auth_kwargs=kwargs,
).execute()
# Get result output
output_text = self.get_text_from_response(response)
if unique_id and output_text:
PromptServer.instance.send_progress_text(output_text, node_id=unique_id)
return (output_text or "Empty response from Gemini model...",)
class GeminiInputFiles(ComfyNodeABC):
"""
Loads and formats input files for use with the Gemini API.
This node allows users to include text (.txt) and PDF (.pdf) files as input
context for the Gemini model. Files are converted to the appropriate format
required by the API and can be chained together to include multiple files
in a single request.
"""
@classmethod
def INPUT_TYPES(cls) -> InputTypeDict:
"""
For details about the supported file input types, see:
https://cloud.google.com/vertex-ai/generative-ai/docs/model-reference/inference
"""
input_dir = folder_paths.get_input_directory()
input_files = [
f
for f in os.scandir(input_dir)
if f.is_file()
and (f.name.endswith(".txt") or f.name.endswith(".pdf"))
and f.stat().st_size < GEMINI_MAX_INPUT_FILE_SIZE
]
input_files = sorted(input_files, key=lambda x: x.name)
input_files = [f.name for f in input_files]
return {
"required": {
"file": (
IO.COMBO,
{
"tooltip": "Input files to include as context for the model. Only accepts text (.txt) and PDF (.pdf) files for now.",
"options": input_files,
"default": input_files[0] if input_files else None,
},
),
},
"optional": {
"GEMINI_INPUT_FILES": (
"GEMINI_INPUT_FILES",
{
"tooltip": "An optional additional file(s) to batch together with the file loaded from this node. Allows chaining of input files so that a single message can include multiple input files.",
"default": None,
},
),
},
}
DESCRIPTION = "Loads and prepares input files to include as inputs for Gemini LLM nodes. The files will be read by the Gemini model when generating a response. The contents of the text file count toward the token limit. 🛈 TIP: Can be chained together with other Gemini Input File nodes."
RETURN_TYPES = ("GEMINI_INPUT_FILES",)
FUNCTION = "prepare_files"
CATEGORY = "api node/text/Gemini"
def create_file_part(self, file_path: str) -> GeminiPart:
mime_type = (
GeminiMimeType.pdf
if file_path.endswith(".pdf")
else GeminiMimeType.text_plain
)
# Use base64 string directly, not the data URI
with open(file_path, "rb") as f:
file_content = f.read()
import base64
base64_str = base64.b64encode(file_content).decode("utf-8")
return GeminiPart(
inlineData=GeminiInlineData(
mimeType=mime_type,
data=base64_str,
)
)
def prepare_files(
self, file: str, GEMINI_INPUT_FILES: list[GeminiPart] = []
) -> tuple[list[GeminiPart]]:
"""
Loads and formats input files for Gemini API.
"""
file_path = folder_paths.get_annotated_filepath(file)
input_file_content = self.create_file_part(file_path)
files = [input_file_content] + GEMINI_INPUT_FILES
return (files,)
NODE_CLASS_MAPPINGS = {
"GeminiNode": GeminiNode,
"GeminiInputFiles": GeminiInputFiles,
}
NODE_DISPLAY_NAME_MAPPINGS = {
"GeminiNode": "Google Gemini",
"GeminiInputFiles": "Gemini Input Files",
}

30
comfy_api_nodes/nodes_ideogram.py
View File

@ -23,6 +23,7 @@ from comfy_api_nodes.apinode_utils import (
bytesio_to_image_tensor,
resize_mask_to_image,
)
from server import PromptServer
V1_V1_RES_MAP = {
"Auto":"AUTO",
@ -232,6 +233,19 @@ def download_and_process_images(image_urls):
return stacked_tensors
def display_image_urls_on_node(image_urls, node_id):
if node_id and image_urls:
if len(image_urls) == 1:
PromptServer.instance.send_progress_text(
f"Generated Image URL:\n{image_urls[0]}", node_id
)
else:
urls_text = "Generated Image URLs:\n" + "\n".join(
f"{i+1}. {url}" for i, url in enumerate(image_urls)
)
PromptServer.instance.send_progress_text(urls_text, node_id)
class IdeogramV1(ComfyNodeABC):
"""
Generates images using the Ideogram V1 model.
@ -304,12 +318,13 @@ class IdeogramV1(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = (IO.IMAGE,)
FUNCTION = "api_call"
CATEGORY = "api node/image/Ideogram/v1"
CATEGORY = "api node/image/Ideogram"
DESCRIPTION = cleandoc(__doc__ or "")
API_NODE = True
@ -322,6 +337,7 @@ class IdeogramV1(ComfyNodeABC):
seed=0,
negative_prompt="",
num_images=1,
unique_id=None,
**kwargs,
):
# Determine the model based on turbo setting
@ -361,6 +377,7 @@ class IdeogramV1(ComfyNodeABC):
if not image_urls:
raise Exception("No image URLs were generated in the response")
display_image_urls_on_node(image_urls, unique_id)
return (download_and_process_images(image_urls),)
@ -460,12 +477,13 @@ class IdeogramV2(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = (IO.IMAGE,)
FUNCTION = "api_call"
CATEGORY = "api node/image/Ideogram/v2"
CATEGORY = "api node/image/Ideogram"
DESCRIPTION = cleandoc(__doc__ or "")
API_NODE = True
@ -481,6 +499,7 @@ class IdeogramV2(ComfyNodeABC):
negative_prompt="",
num_images=1,
color_palette="",
unique_id=None,
**kwargs,
):
aspect_ratio = V1_V2_RATIO_MAP.get(aspect_ratio, None)
@ -534,6 +553,7 @@ class IdeogramV2(ComfyNodeABC):
if not image_urls:
raise Exception("No image URLs were generated in the response")
display_image_urls_on_node(image_urls, unique_id)
return (download_and_process_images(image_urls),)
class IdeogramV3(ComfyNodeABC):
@ -623,12 +643,13 @@ class IdeogramV3(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = (IO.IMAGE,)
FUNCTION = "api_call"
CATEGORY = "api node/image/Ideogram/v3"
CATEGORY = "api node/image/Ideogram"
DESCRIPTION = cleandoc(__doc__ or "")
API_NODE = True
@ -643,6 +664,7 @@ class IdeogramV3(ComfyNodeABC):
seed=0,
num_images=1,
rendering_speed="BALANCED",
unique_id=None,
**kwargs,
):
# Check if both image and mask are provided for editing mode
@ -762,6 +784,7 @@ class IdeogramV3(ComfyNodeABC):
if not image_urls:
raise Exception("No image URLs were generated in the response")
display_image_urls_on_node(image_urls, unique_id)
return (download_and_process_images(image_urls),)
@ -776,4 +799,3 @@ NODE_DISPLAY_NAME_MAPPINGS = {
"IdeogramV2": "Ideogram V2",
"IdeogramV3": "Ideogram V3",
}

205
comfy_api_nodes/nodes_kling.py
View File

@ -6,6 +6,7 @@ For source of truth on the allowed permutations of request fields, please refere
from __future__ import annotations
from typing import Optional, TypeVar, Any
from collections.abc import Callable
import math
import logging
@ -64,6 +65,12 @@ from comfy_api_nodes.apinode_utils import (
download_url_to_image_tensor,
)
from comfy_api_nodes.mapper_utils import model_field_to_node_input
from comfy_api_nodes.util.validation_utils import (
validate_image_dimensions,
validate_image_aspect_ratio,
validate_video_dimensions,
validate_video_duration,
)
from comfy_api.input.basic_types import AudioInput
from comfy_api.input.video_types import VideoInput
from comfy_api.input_impl import VideoFromFile
@ -79,13 +86,20 @@ PATH_CHARACTER_IMAGE = f"/proxy/kling/{KLING_API_VERSION}/images/generations"
PATH_VIRTUAL_TRY_ON = f"/proxy/kling/{KLING_API_VERSION}/images/kolors-virtual-try-on"
PATH_IMAGE_GENERATIONS = f"/proxy/kling/{KLING_API_VERSION}/images/generations"
MAX_PROMPT_LENGTH_T2V = 2500
MAX_PROMPT_LENGTH_I2V = 500
MAX_PROMPT_LENGTH_IMAGE_GEN = 500
MAX_NEGATIVE_PROMPT_LENGTH_IMAGE_GEN = 200
MAX_PROMPT_LENGTH_LIP_SYNC = 120
AVERAGE_DURATION_T2V = 319
AVERAGE_DURATION_I2V = 164
AVERAGE_DURATION_LIP_SYNC = 455
AVERAGE_DURATION_VIRTUAL_TRY_ON = 19
AVERAGE_DURATION_IMAGE_GEN = 32
AVERAGE_DURATION_VIDEO_EFFECTS = 320
AVERAGE_DURATION_VIDEO_EXTEND = 320
R = TypeVar("R")
@ -95,7 +109,13 @@ class KlingApiError(Exception):
pass
def poll_until_finished(auth_kwargs: dict[str,str], api_endpoint: ApiEndpoint[Any, R]) -> R:
def poll_until_finished(
auth_kwargs: dict[str, str],
api_endpoint: ApiEndpoint[Any, R],
result_url_extractor: Optional[Callable[[R], str]] = None,
estimated_duration: Optional[int] = None,
node_id: Optional[str] = None,
) -> R:
"""Polls the Kling API endpoint until the task reaches a terminal state, then returns the response."""
return PollingOperation(
poll_endpoint=api_endpoint,
@ -109,6 +129,9 @@ def poll_until_finished(auth_kwargs: dict[str,str], api_endpoint: ApiEndpoint[An
else None
),
auth_kwargs=auth_kwargs,
result_url_extractor=result_url_extractor,
estimated_duration=estimated_duration,
node_id=node_id,
).execute()
@ -192,23 +215,8 @@ def validate_input_image(image: torch.Tensor) -> None:
See: https://app.klingai.com/global/dev/document-api/apiReference/model/imageToVideo
"""
if len(image.shape) == 4:
height, width = image.shape[1], image.shape[2]
elif len(image.shape) == 3:
height, width = image.shape[0], image.shape[1]
else:
raise ValueError("Invalid image tensor shape.")
# Ensure minimum resolution is met
if height < 300:
raise ValueError("Image height must be at least 300px")
if width < 300:
raise ValueError("Image width must be at least 300px")
# Ensure aspect ratio is within acceptable range
aspect_ratio = width / height
if aspect_ratio < 1 / 2.5 or aspect_ratio > 2.5:
raise ValueError("Image aspect ratio must be between 1:2.5 and 2.5:1")
validate_image_dimensions(image, min_width=300, min_height=300)
validate_image_aspect_ratio(image, min_aspect_ratio=1 / 2.5, max_aspect_ratio=2.5)
def get_camera_control_input_config(
@ -227,7 +235,9 @@ def get_camera_control_input_config(
def get_video_from_response(response) -> KlingVideoResult:
"""Returns the first video object from the Kling video generation task result."""
"""Returns the first video object from the Kling video generation task result.
Will raise an error if the response is not valid.
"""
video = response.data.task_result.videos[0]
logging.info(
"Kling task %s succeeded. Video URL: %s", response.data.task_id, video.url
@ -235,12 +245,37 @@ def get_video_from_response(response) -> KlingVideoResult:
return video
def get_video_url_from_response(response) -> Optional[str]:
"""Returns the first video url from the Kling video generation task result.
Will not raise an error if the response is not valid.
"""
if response and is_valid_video_response(response):
return str(get_video_from_response(response).url)
else:
return None
def get_images_from_response(response) -> list[KlingImageResult]:
"""Returns the list of image objects from the Kling image generation task result.
Will raise an error if the response is not valid.
"""
images = response.data.task_result.images
logging.info("Kling task %s succeeded. Images: %s", response.data.task_id, images)
return images
def get_images_urls_from_response(response) -> Optional[str]:
"""Returns the list of image urls from the Kling image generation task result.
Will not raise an error if the response is not valid. If there is only one image, returns the url as a string. If there are multiple images, returns a list of urls.
"""
if response and is_valid_image_response(response):
images = get_images_from_response(response)
image_urls = [str(image.url) for image in images]
return "\n".join(image_urls)
else:
return None
def video_result_to_node_output(
video: KlingVideoResult,
) -> tuple[VideoFromFile, str, str]:
@ -312,6 +347,7 @@ class KlingCameraControls(KlingNodeBase):
RETURN_TYPES = ("CAMERA_CONTROL",)
RETURN_NAMES = ("camera_control",)
FUNCTION = "main"
API_NODE = False # This is just a helper node, it doesn't make an API call
@classmethod
def VALIDATE_INPUTS(
@ -421,6 +457,7 @@ class KlingTextToVideoNode(KlingNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -428,7 +465,9 @@ class KlingTextToVideoNode(KlingNodeBase):
RETURN_NAMES = ("VIDEO", "video_id", "duration")
DESCRIPTION = "Kling Text to Video Node"
def get_response(self, task_id: str, auth_kwargs: dict[str,str]) -> KlingText2VideoResponse:
def get_response(
self, task_id: str, auth_kwargs: dict[str, str], node_id: Optional[str] = None
) -> KlingText2VideoResponse:
return poll_until_finished(
auth_kwargs,
ApiEndpoint(
@ -437,6 +476,9 @@ class KlingTextToVideoNode(KlingNodeBase):
request_model=EmptyRequest,
response_model=KlingText2VideoResponse,
),
result_url_extractor=get_video_url_from_response,
estimated_duration=AVERAGE_DURATION_T2V,
node_id=node_id,
)
def api_call(
@ -449,6 +491,7 @@ class KlingTextToVideoNode(KlingNodeBase):
camera_control: Optional[KlingCameraControl] = None,
model_name: Optional[str] = None,
duration: Optional[str] = None,
unique_id: Optional[str] = None,
**kwargs,
) -> tuple[VideoFromFile, str, str]:
validate_prompts(prompt, negative_prompt, MAX_PROMPT_LENGTH_T2V)
@ -478,7 +521,9 @@ class KlingTextToVideoNode(KlingNodeBase):
validate_task_creation_response(task_creation_response)
task_id = task_creation_response.data.task_id
final_response = self.get_response(task_id, auth_kwargs=kwargs)
final_response = self.get_response(
task_id, auth_kwargs=kwargs, node_id=unique_id
)
validate_video_result_response(final_response)
video = get_video_from_response(final_response)
@ -528,6 +573,7 @@ class KlingCameraControlT2VNode(KlingTextToVideoNode):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -540,6 +586,7 @@ class KlingCameraControlT2VNode(KlingTextToVideoNode):
cfg_scale: float,
aspect_ratio: str,
camera_control: Optional[KlingCameraControl] = None,
unique_id: Optional[str] = None,
**kwargs,
):
return super().api_call(
@ -613,6 +660,7 @@ class KlingImage2VideoNode(KlingNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -620,7 +668,9 @@ class KlingImage2VideoNode(KlingNodeBase):
RETURN_NAMES = ("VIDEO", "video_id", "duration")
DESCRIPTION = "Kling Image to Video Node"
def get_response(self, task_id: str, auth_kwargs: dict[str,str]) -> KlingImage2VideoResponse:
def get_response(
self, task_id: str, auth_kwargs: dict[str, str], node_id: Optional[str] = None
) -> KlingImage2VideoResponse:
return poll_until_finished(
auth_kwargs,
ApiEndpoint(
@ -629,6 +679,9 @@ class KlingImage2VideoNode(KlingNodeBase):
request_model=KlingImage2VideoRequest,
response_model=KlingImage2VideoResponse,
),
result_url_extractor=get_video_url_from_response,
estimated_duration=AVERAGE_DURATION_I2V,
node_id=node_id,
)
def api_call(
@ -643,6 +696,7 @@ class KlingImage2VideoNode(KlingNodeBase):
duration: str,
camera_control: Optional[KlingCameraControl] = None,
end_frame: Optional[torch.Tensor] = None,
unique_id: Optional[str] = None,
**kwargs,
) -> tuple[VideoFromFile]:
validate_prompts(prompt, negative_prompt, MAX_PROMPT_LENGTH_I2V)
@ -681,7 +735,9 @@ class KlingImage2VideoNode(KlingNodeBase):
validate_task_creation_response(task_creation_response)
task_id = task_creation_response.data.task_id
final_response = self.get_response(task_id, auth_kwargs=kwargs)
final_response = self.get_response(
task_id, auth_kwargs=kwargs, node_id=unique_id
)
validate_video_result_response(final_response)
video = get_video_from_response(final_response)
@ -734,6 +790,7 @@ class KlingCameraControlI2VNode(KlingImage2VideoNode):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -747,6 +804,7 @@ class KlingCameraControlI2VNode(KlingImage2VideoNode):
cfg_scale: float,
aspect_ratio: str,
camera_control: KlingCameraControl,
unique_id: Optional[str] = None,
**kwargs,
):
return super().api_call(
@ -759,6 +817,7 @@ class KlingCameraControlI2VNode(KlingImage2VideoNode):
prompt=prompt,
negative_prompt=negative_prompt,
camera_control=camera_control,
unique_id=unique_id,
**kwargs,
)
@ -830,6 +889,7 @@ class KlingStartEndFrameNode(KlingImage2VideoNode):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -844,6 +904,7 @@ class KlingStartEndFrameNode(KlingImage2VideoNode):
cfg_scale: float,
aspect_ratio: str,
mode: str,
unique_id: Optional[str] = None,
**kwargs,
):
mode, duration, model_name = KlingStartEndFrameNode.get_mode_string_mapping()[
@ -859,6 +920,7 @@ class KlingStartEndFrameNode(KlingImage2VideoNode):
aspect_ratio=aspect_ratio,
duration=duration,
end_frame=end_frame,
unique_id=unique_id,
**kwargs,
)
@ -892,6 +954,7 @@ class KlingVideoExtendNode(KlingNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -899,7 +962,9 @@ class KlingVideoExtendNode(KlingNodeBase):
RETURN_NAMES = ("VIDEO", "video_id", "duration")
DESCRIPTION = "Kling Video Extend Node. Extend videos made by other Kling nodes. The video_id is created by using other Kling Nodes."
def get_response(self, task_id: str, auth_kwargs: dict[str,str]) -> KlingVideoExtendResponse:
def get_response(
self, task_id: str, auth_kwargs: dict[str, str], node_id: Optional[str] = None
) -> KlingVideoExtendResponse:
return poll_until_finished(
auth_kwargs,
ApiEndpoint(
@ -908,6 +973,9 @@ class KlingVideoExtendNode(KlingNodeBase):
request_model=EmptyRequest,
response_model=KlingVideoExtendResponse,
),
result_url_extractor=get_video_url_from_response,
estimated_duration=AVERAGE_DURATION_VIDEO_EXTEND,
node_id=node_id,
)
def api_call(
@ -916,6 +984,7 @@ class KlingVideoExtendNode(KlingNodeBase):
negative_prompt: str,
cfg_scale: float,
video_id: str,
unique_id: Optional[str] = None,
**kwargs,
) -> tuple[VideoFromFile, str, str]:
validate_prompts(prompt, negative_prompt, MAX_PROMPT_LENGTH_T2V)
@ -939,7 +1008,9 @@ class KlingVideoExtendNode(KlingNodeBase):
validate_task_creation_response(task_creation_response)
task_id = task_creation_response.data.task_id
final_response = self.get_response(task_id, auth_kwargs=kwargs)
final_response = self.get_response(
task_id, auth_kwargs=kwargs, node_id=unique_id
)
validate_video_result_response(final_response)
video = get_video_from_response(final_response)
@ -952,7 +1023,9 @@ class KlingVideoEffectsBase(KlingNodeBase):
RETURN_TYPES = ("VIDEO", "STRING", "STRING")
RETURN_NAMES = ("VIDEO", "video_id", "duration")
def get_response(self, task_id: str, auth_kwargs: dict[str,str]) -> KlingVideoEffectsResponse:
def get_response(
self, task_id: str, auth_kwargs: dict[str, str], node_id: Optional[str] = None
) -> KlingVideoEffectsResponse:
return poll_until_finished(
auth_kwargs,
ApiEndpoint(
@ -961,6 +1034,9 @@ class KlingVideoEffectsBase(KlingNodeBase):
request_model=EmptyRequest,
response_model=KlingVideoEffectsResponse,
),
result_url_extractor=get_video_url_from_response,
estimated_duration=AVERAGE_DURATION_VIDEO_EFFECTS,
node_id=node_id,
)
def api_call(
@ -972,6 +1048,7 @@ class KlingVideoEffectsBase(KlingNodeBase):
image_1: torch.Tensor,
image_2: Optional[torch.Tensor] = None,
mode: Optional[KlingVideoGenMode] = None,
unique_id: Optional[str] = None,
**kwargs,
):
if dual_character:
@ -1009,7 +1086,9 @@ class KlingVideoEffectsBase(KlingNodeBase):
validate_task_creation_response(task_creation_response)
task_id = task_creation_response.data.task_id
final_response = self.get_response(task_id, auth_kwargs=kwargs)
final_response = self.get_response(
task_id, auth_kwargs=kwargs, node_id=unique_id
)
validate_video_result_response(final_response)
video = get_video_from_response(final_response)
@ -1053,6 +1132,7 @@ class KlingDualCharacterVideoEffectNode(KlingVideoEffectsBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -1068,6 +1148,7 @@ class KlingDualCharacterVideoEffectNode(KlingVideoEffectsBase):
model_name: KlingCharacterEffectModelName,
mode: KlingVideoGenMode,
duration: KlingVideoGenDuration,
unique_id: Optional[str] = None,
**kwargs,
):
video, _, duration = super().api_call(
@ -1078,10 +1159,12 @@ class KlingDualCharacterVideoEffectNode(KlingVideoEffectsBase):
duration=duration,
image_1=image_left,
image_2=image_right,
unique_id=unique_id,
**kwargs,
)
return video, duration
class KlingSingleImageVideoEffectNode(KlingVideoEffectsBase):
"""Kling Single Image Video Effect Node"""
@ -1117,6 +1200,7 @@ class KlingSingleImageVideoEffectNode(KlingVideoEffectsBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -1128,6 +1212,7 @@ class KlingSingleImageVideoEffectNode(KlingVideoEffectsBase):
effect_scene: KlingSingleImageEffectsScene,
model_name: KlingSingleImageEffectModelName,
duration: KlingVideoGenDuration,
unique_id: Optional[str] = None,
**kwargs,
):
return super().api_call(
@ -1136,6 +1221,7 @@ class KlingSingleImageVideoEffectNode(KlingVideoEffectsBase):
model_name=model_name,
duration=duration,
image_1=image,
unique_id=unique_id,
**kwargs,
)
@ -1146,6 +1232,17 @@ class KlingLipSyncBase(KlingNodeBase):
RETURN_TYPES = ("VIDEO", "STRING", "STRING")
RETURN_NAMES = ("VIDEO", "video_id", "duration")
def validate_lip_sync_video(self, video: VideoInput):
"""
Validates the input video adheres to the expectations of the Kling Lip Sync API:
- Video length does not exceed 10s and is not shorter than 2s
- Length and width dimensions should both be between 720px and 1920px
See: https://app.klingai.com/global/dev/document-api/apiReference/model/videoTolip
"""
validate_video_dimensions(video, 720, 1920)
validate_video_duration(video, 2, 10)
def validate_text(self, text: str):
if not text:
raise ValueError("Text is required")
@ -1154,7 +1251,9 @@ class KlingLipSyncBase(KlingNodeBase):
f"Text is too long. Maximum length is {MAX_PROMPT_LENGTH_LIP_SYNC} characters."
)
def get_response(self, task_id: str, auth_kwargs: dict[str,str]) -> KlingLipSyncResponse:
def get_response(
self, task_id: str, auth_kwargs: dict[str, str], node_id: Optional[str] = None
) -> KlingLipSyncResponse:
"""Polls the Kling API endpoint until the task reaches a terminal state."""
return poll_until_finished(
auth_kwargs,
@ -1164,6 +1263,9 @@ class KlingLipSyncBase(KlingNodeBase):
request_model=EmptyRequest,
response_model=KlingLipSyncResponse,
),
result_url_extractor=get_video_url_from_response,
estimated_duration=AVERAGE_DURATION_LIP_SYNC,
node_id=node_id,
)
def api_call(
@ -1175,10 +1277,12 @@ class KlingLipSyncBase(KlingNodeBase):
text: Optional[str] = None,
voice_speed: Optional[float] = None,
voice_id: Optional[str] = None,
**kwargs
unique_id: Optional[str] = None,
**kwargs,
) -> tuple[VideoFromFile, str, str]:
if text:
self.validate_text(text)
self.validate_lip_sync_video(video)
# Upload video to Comfy API and get download URL
video_url = upload_video_to_comfyapi(video, auth_kwargs=kwargs)
@ -1217,7 +1321,9 @@ class KlingLipSyncBase(KlingNodeBase):
validate_task_creation_response(task_creation_response)
task_id = task_creation_response.data.task_id
final_response = self.get_response(task_id, auth_kwargs=kwargs)
final_response = self.get_response(
task_id, auth_kwargs=kwargs, node_id=unique_id
)
validate_video_result_response(final_response)
video = get_video_from_response(final_response)
@ -1243,16 +1349,18 @@ class KlingLipSyncAudioToVideoNode(KlingLipSyncBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
DESCRIPTION = "Kling Lip Sync Audio to Video Node. Syncs mouth movements in a video file to the audio content of an audio file."
DESCRIPTION = "Kling Lip Sync Audio to Video Node. Syncs mouth movements in a video file to the audio content of an audio file. When using, ensure that the audio contains clearly distinguishable vocals and that the video contains a distinct face. The audio file should not be larger than 5MB. The video file should not be larger than 100MB, should have height/width between 720px and 1920px, and should be between 2s and 10s in length."
def api_call(
self,
video: VideoInput,
audio: AudioInput,
voice_language: str,
unique_id: Optional[str] = None,
**kwargs,
):
return super().api_call(
@ -1260,6 +1368,7 @@ class KlingLipSyncAudioToVideoNode(KlingLipSyncBase):
audio=audio,
voice_language=voice_language,
mode="audio2video",
unique_id=unique_id,
**kwargs,
)
@ -1352,10 +1461,11 @@ class KlingLipSyncTextToVideoNode(KlingLipSyncBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
DESCRIPTION = "Kling Lip Sync Text to Video Node. Syncs mouth movements in a video file to a text prompt."
DESCRIPTION = "Kling Lip Sync Text to Video Node. Syncs mouth movements in a video file to a text prompt. The video file should not be larger than 100MB, should have height/width between 720px and 1920px, and should be between 2s and 10s in length."
def api_call(
self,
@ -1363,6 +1473,7 @@ class KlingLipSyncTextToVideoNode(KlingLipSyncBase):
text: str,
voice: str,
voice_speed: float,
unique_id: Optional[str] = None,
**kwargs,
):
voice_id, voice_language = KlingLipSyncTextToVideoNode.get_voice_config()[voice]
@ -1373,6 +1484,7 @@ class KlingLipSyncTextToVideoNode(KlingLipSyncBase):
voice_id=voice_id,
voice_speed=voice_speed,
mode="text2video",
unique_id=unique_id,
**kwargs,
)
@ -1413,13 +1525,14 @@ class KlingVirtualTryOnNode(KlingImageGenerationBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
DESCRIPTION = "Kling Virtual Try On Node. Input a human image and a cloth image to try on the cloth on the human."
DESCRIPTION = "Kling Virtual Try On Node. Input a human image and a cloth image to try on the cloth on the human. You can merge multiple clothing item pictures into one image with a white background."
def get_response(
self, task_id: str, auth_kwargs: dict[str,str] = None
self, task_id: str, auth_kwargs: dict[str, str], node_id: Optional[str] = None
) -> KlingVirtualTryOnResponse:
return poll_until_finished(
auth_kwargs,
@ -1429,6 +1542,9 @@ class KlingVirtualTryOnNode(KlingImageGenerationBase):
request_model=EmptyRequest,
response_model=KlingVirtualTryOnResponse,
),
result_url_extractor=get_images_urls_from_response,
estimated_duration=AVERAGE_DURATION_VIRTUAL_TRY_ON,
node_id=node_id,
)
def api_call(
@ -1436,6 +1552,7 @@ class KlingVirtualTryOnNode(KlingImageGenerationBase):
human_image: torch.Tensor,
cloth_image: torch.Tensor,
model_name: KlingVirtualTryOnModelName,
unique_id: Optional[str] = None,
**kwargs,
):
initial_operation = SynchronousOperation(
@ -1457,7 +1574,9 @@ class KlingVirtualTryOnNode(KlingImageGenerationBase):
validate_task_creation_response(task_creation_response)
task_id = task_creation_response.data.task_id
final_response = self.get_response(task_id, auth_kwargs=kwargs)
final_response = self.get_response(
task_id, auth_kwargs=kwargs, node_id=unique_id
)
validate_image_result_response(final_response)
images = get_images_from_response(final_response)
@ -1528,13 +1647,17 @@ class KlingImageGenerationNode(KlingImageGenerationBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
DESCRIPTION = "Kling Image Generation Node. Generate an image from a text prompt with an optional reference image."
def get_response(
self, task_id: str, auth_kwargs: Optional[dict[str,str]] = None
self,
task_id: str,
auth_kwargs: Optional[dict[str, str]],
node_id: Optional[str] = None,
) -> KlingImageGenerationsResponse:
return poll_until_finished(
auth_kwargs,
@ -1544,6 +1667,9 @@ class KlingImageGenerationNode(KlingImageGenerationBase):
request_model=EmptyRequest,
response_model=KlingImageGenerationsResponse,
),
result_url_extractor=get_images_urls_from_response,
estimated_duration=AVERAGE_DURATION_IMAGE_GEN,
node_id=node_id,
)
def api_call(
@ -1557,6 +1683,7 @@ class KlingImageGenerationNode(KlingImageGenerationBase):
n: int,
aspect_ratio: KlingImageGenAspectRatio,
image: Optional[torch.Tensor] = None,
unique_id: Optional[str] = None,
**kwargs,
):
self.validate_prompt(prompt, negative_prompt)
@ -1589,7 +1716,9 @@ class KlingImageGenerationNode(KlingImageGenerationBase):
validate_task_creation_response(task_creation_response)
task_id = task_creation_response.data.task_id
final_response = self.get_response(task_id, auth_kwargs=kwargs)
final_response = self.get_response(
task_id, auth_kwargs=kwargs, node_id=unique_id
)
validate_image_result_response(final_response)
images = get_images_from_response(final_response)

33
comfy_api_nodes/nodes_luma.py
View File

@ -36,11 +36,20 @@ from comfy_api_nodes.apinode_utils import (
process_image_response,
validate_string,
)
from server import PromptServer
import requests
import torch
from io import BytesIO
LUMA_T2V_AVERAGE_DURATION = 105
LUMA_I2V_AVERAGE_DURATION = 100
def image_result_url_extractor(response: LumaGeneration):
return response.assets.image if hasattr(response, "assets") and hasattr(response.assets, "image") else None
def video_result_url_extractor(response: LumaGeneration):
return response.assets.video if hasattr(response, "assets") and hasattr(response.assets, "video") else None
class LumaReferenceNode(ComfyNodeABC):
"""
@ -204,6 +213,7 @@ class LumaImageGenerationNode(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -217,6 +227,7 @@ class LumaImageGenerationNode(ComfyNodeABC):
image_luma_ref: LumaReferenceChain = None,
style_image: torch.Tensor = None,
character_image: torch.Tensor = None,
unique_id: str = None,
**kwargs,
):
validate_string(prompt, strip_whitespace=True, min_length=3)
@ -271,6 +282,8 @@ class LumaImageGenerationNode(ComfyNodeABC):
completed_statuses=[LumaState.completed],
failed_statuses=[LumaState.failed],
status_extractor=lambda x: x.state,
result_url_extractor=image_result_url_extractor,
node_id=unique_id,
auth_kwargs=kwargs,
)
response_poll = operation.execute()
@ -353,6 +366,7 @@ class LumaImageModifyNode(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -363,6 +377,7 @@ class LumaImageModifyNode(ComfyNodeABC):
image: torch.Tensor,
image_weight: float,
seed,
unique_id: str = None,
**kwargs,
):
# first, upload image
@ -399,6 +414,8 @@ class LumaImageModifyNode(ComfyNodeABC):
completed_statuses=[LumaState.completed],
failed_statuses=[LumaState.failed],
status_extractor=lambda x: x.state,
result_url_extractor=image_result_url_extractor,
node_id=unique_id,
auth_kwargs=kwargs,
)
response_poll = operation.execute()
@ -473,6 +490,7 @@ class LumaTextToVideoGenerationNode(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -486,6 +504,7 @@ class LumaTextToVideoGenerationNode(ComfyNodeABC):
loop: bool,
seed,
luma_concepts: LumaConceptChain = None,
unique_id: str = None,
**kwargs,
):
validate_string(prompt, strip_whitespace=False, min_length=3)
@ -512,6 +531,9 @@ class LumaTextToVideoGenerationNode(ComfyNodeABC):
)
response_api: LumaGeneration = operation.execute()
if unique_id:
PromptServer.instance.send_progress_text(f"Luma video generation started: {response_api.id}", unique_id)
operation = PollingOperation(
poll_endpoint=ApiEndpoint(
path=f"/proxy/luma/generations/{response_api.id}",
@ -522,6 +544,9 @@ class LumaTextToVideoGenerationNode(ComfyNodeABC):
completed_statuses=[LumaState.completed],
failed_statuses=[LumaState.failed],
status_extractor=lambda x: x.state,
result_url_extractor=video_result_url_extractor,
node_id=unique_id,
estimated_duration=LUMA_T2V_AVERAGE_DURATION,
auth_kwargs=kwargs,
)
response_poll = operation.execute()
@ -597,6 +622,7 @@ class LumaImageToVideoGenerationNode(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -611,6 +637,7 @@ class LumaImageToVideoGenerationNode(ComfyNodeABC):
first_image: torch.Tensor = None,
last_image: torch.Tensor = None,
luma_concepts: LumaConceptChain = None,
unique_id: str = None,
**kwargs,
):
if first_image is None and last_image is None:
@ -642,6 +669,9 @@ class LumaImageToVideoGenerationNode(ComfyNodeABC):
)
response_api: LumaGeneration = operation.execute()
if unique_id:
PromptServer.instance.send_progress_text(f"Luma video generation started: {response_api.id}", unique_id)
operation = PollingOperation(
poll_endpoint=ApiEndpoint(
path=f"/proxy/luma/generations/{response_api.id}",
@ -652,6 +682,9 @@ class LumaImageToVideoGenerationNode(ComfyNodeABC):
completed_statuses=[LumaState.completed],
failed_statuses=[LumaState.failed],
status_extractor=lambda x: x.state,
result_url_extractor=video_result_url_extractor,
node_id=unique_id,
estimated_duration=LUMA_I2V_AVERAGE_DURATION,
auth_kwargs=kwargs,
)
response_poll = operation.execute()

27
comfy_api_nodes/nodes_minimax.py
View File

@ -1,3 +1,7 @@
from typing import Union
import logging
import torch
from comfy.comfy_types.node_typing import IO
from comfy_api.input_impl.video_types import VideoFromFile
from comfy_api_nodes.apis import (
@ -20,16 +24,19 @@ from comfy_api_nodes.apinode_utils import (
upload_images_to_comfyapi,
validate_string,
)
from server import PromptServer
import torch
import logging
I2V_AVERAGE_DURATION = 114
T2V_AVERAGE_DURATION = 234
class MinimaxTextToVideoNode:
"""
Generates videos synchronously based on a prompt, and optional parameters using MiniMax's API.
"""
AVERAGE_DURATION = T2V_AVERAGE_DURATION
@classmethod
def INPUT_TYPES(s):
return {
@ -68,6 +75,7 @@ class MinimaxTextToVideoNode:
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -85,6 +93,7 @@ class MinimaxTextToVideoNode:
model="T2V-01",
image: torch.Tensor=None, # used for ImageToVideo
subject: torch.Tensor=None, # used for SubjectToVideo
unique_id: Union[str, None]=None,
**kwargs,
):
'''
@ -138,6 +147,8 @@ class MinimaxTextToVideoNode:
completed_statuses=["Success"],
failed_statuses=["Fail"],
status_extractor=lambda x: x.status.value,
estimated_duration=self.AVERAGE_DURATION,
node_id=unique_id,
auth_kwargs=kwargs,
)
task_result = video_generate_operation.execute()
@ -164,6 +175,12 @@ class MinimaxTextToVideoNode:
f"No video was found in the response. Full response: {file_result.model_dump()}"
)
logging.info(f"Generated video URL: {file_url}")
if unique_id:
if hasattr(file_result.file, "backup_download_url"):
message = f"Result URL: {file_url}\nBackup URL: {file_result.file.backup_download_url}"
else:
message = f"Result URL: {file_url}"
PromptServer.instance.send_progress_text(message, unique_id)
video_io = download_url_to_bytesio(file_url)
if video_io is None:
@ -178,6 +195,8 @@ class MinimaxImageToVideoNode(MinimaxTextToVideoNode):
Generates videos synchronously based on an image and prompt, and optional parameters using MiniMax's API.
"""
AVERAGE_DURATION = I2V_AVERAGE_DURATION
@classmethod
def INPUT_TYPES(s):
return {
@ -223,6 +242,7 @@ class MinimaxImageToVideoNode(MinimaxTextToVideoNode):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -239,6 +259,8 @@ class MinimaxSubjectToVideoNode(MinimaxTextToVideoNode):
Generates videos synchronously based on an image and prompt, and optional parameters using MiniMax's API.
"""
AVERAGE_DURATION = T2V_AVERAGE_DURATION
@classmethod
def INPUT_TYPES(s):
return {
@ -282,6 +304,7 @@ class MinimaxSubjectToVideoNode(MinimaxTextToVideoNode):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}

536
comfy_api_nodes/nodes_openai.py
View File

@ -1,29 +1,86 @@
import io
from typing import TypedDict, Optional
import json
import os
import time
import re
import uuid
from enum import Enum
from inspect import cleandoc
import numpy as np
import torch
from PIL import Image
from comfy.comfy_types.node_typing import IO, ComfyNodeABC, InputTypeDict
from server import PromptServer
import folder_paths
from comfy_api_nodes.apis import (
OpenAIImageGenerationRequest,
OpenAIImageEditRequest,
OpenAIImageGenerationResponse,
OpenAICreateResponse,
OpenAIResponse,
CreateModelResponseProperties,
Item,
Includable,
OutputContent,
InputImageContent,
Detail,
InputTextContent,
InputMessage,
InputMessageContentList,
InputContent,
InputFileContent,
)
from comfy_api_nodes.apis.client import (
ApiEndpoint,
HttpMethod,
SynchronousOperation,
PollingOperation,
EmptyRequest,
)
from comfy_api_nodes.apinode_utils import (
downscale_image_tensor,
validate_and_cast_response,
validate_string,
tensor_to_base64_string,
text_filepath_to_data_uri,
)
from comfy_api_nodes.mapper_utils import model_field_to_node_input
RESPONSES_ENDPOINT = "/proxy/openai/v1/responses"
STARTING_POINT_ID_PATTERN = r"<starting_point_id:(.*)>"
class HistoryEntry(TypedDict):
"""Type definition for a single history entry in the chat."""
prompt: str
response: str
response_id: str
timestamp: float
class ChatHistory(TypedDict):
"""Type definition for the chat history dictionary."""
__annotations__: dict[str, list[HistoryEntry]]
class SupportedOpenAIModel(str, Enum):
o4_mini = "o4-mini"
o1 = "o1"
o3 = "o3"
o1_pro = "o1-pro"
gpt_4o = "gpt-4o"
gpt_4_1 = "gpt-4.1"
gpt_4_1_mini = "gpt-4.1-mini"
gpt_4_1_nano = "gpt-4.1-nano"
class OpenAIDalle2(ComfyNodeABC):
"""
@ -96,6 +153,7 @@ class OpenAIDalle2(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -113,7 +171,8 @@ class OpenAIDalle2(ComfyNodeABC):
mask=None,
n=1,
size="1024x1024",
**kwargs
unique_id=None,
**kwargs,
):
validate_string(prompt, strip_whitespace=False)
model = "dall-e-2"
@ -176,7 +235,7 @@ class OpenAIDalle2(ComfyNodeABC):
response = operation.execute()
img_tensor = validate_and_cast_response(response)
img_tensor = validate_and_cast_response(response, node_id=unique_id)
return (img_tensor,)
@ -242,6 +301,7 @@ class OpenAIDalle3(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -258,7 +318,8 @@ class OpenAIDalle3(ComfyNodeABC):
style="natural",
quality="standard",
size="1024x1024",
**kwargs
unique_id=None,
**kwargs,
):
validate_string(prompt, strip_whitespace=False)
model = "dall-e-3"
@ -284,7 +345,7 @@ class OpenAIDalle3(ComfyNodeABC):
response = operation.execute()
img_tensor = validate_and_cast_response(response)
img_tensor = validate_and_cast_response(response, node_id=unique_id)
return (img_tensor,)
@ -375,6 +436,7 @@ class OpenAIGPTImage1(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -394,12 +456,13 @@ class OpenAIGPTImage1(ComfyNodeABC):
mask=None,
n=1,
size="1024x1024",
**kwargs
unique_id=None,
**kwargs,
):
validate_string(prompt, strip_whitespace=False)
model = "gpt-image-1"
path = "/proxy/openai/images/generations"
content_type="application/json"
content_type = "application/json"
request_class = OpenAIImageGenerationRequest
img_binaries = []
mask_binary = None
@ -408,7 +471,7 @@ class OpenAIGPTImage1(ComfyNodeABC):
if image is not None:
path = "/proxy/openai/images/edits"
request_class = OpenAIImageEditRequest
content_type ="multipart/form-data"
content_type = "multipart/form-data"
batch_size = image.shape[0]
@ -476,21 +539,470 @@ class OpenAIGPTImage1(ComfyNodeABC):
response = operation.execute()
img_tensor = validate_and_cast_response(response)
img_tensor = validate_and_cast_response(response, node_id=unique_id)
return (img_tensor,)
# A dictionary that contains all nodes you want to export with their names
# NOTE: names should be globally unique
class OpenAITextNode(ComfyNodeABC):
"""
Base class for OpenAI text generation nodes.
"""
RETURN_TYPES = (IO.STRING,)
FUNCTION = "api_call"
CATEGORY = "api node/text/OpenAI"
API_NODE = True
class OpenAIChatNode(OpenAITextNode):
"""
Node to generate text responses from an OpenAI model.
"""
def __init__(self) -> None:
"""Initialize the chat node with a new session ID and empty history."""
self.current_session_id: str = str(uuid.uuid4())
self.history: dict[str, list[HistoryEntry]] = {}
self.previous_response_id: Optional[str] = None
@classmethod
def INPUT_TYPES(cls) -> InputTypeDict:
return {
"required": {
"prompt": (
IO.STRING,
{
"multiline": True,
"default": "",
"tooltip": "Text inputs to the model, used to generate a response.",
},
),
"persist_context": (
IO.BOOLEAN,
{
"default": True,
"tooltip": "Persist chat context between calls (multi-turn conversation)",
},
),
"model": model_field_to_node_input(
IO.COMBO,
OpenAICreateResponse,
"model",
enum_type=SupportedOpenAIModel,
),
},
"optional": {
"images": (
IO.IMAGE,
{
"default": None,
"tooltip": "Optional image(s) to use as context for the model. To include multiple images, you can use the Batch Images node.",
},
),
"files": (
"OPENAI_INPUT_FILES",
{
"default": None,
"tooltip": "Optional file(s) to use as context for the model. Accepts inputs from the OpenAI Chat Input Files node.",
},
),
"advanced_options": (
"OPENAI_CHAT_CONFIG",
{
"default": None,
"tooltip": "Optional configuration for the model. Accepts inputs from the OpenAI Chat Advanced Options node.",
},
),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
DESCRIPTION = "Generate text responses from an OpenAI model."
def get_result_response(
self,
response_id: str,
include: Optional[list[Includable]] = None,
auth_kwargs: Optional[dict[str, str]] = None,
) -> OpenAIResponse:
"""
Retrieve a model response with the given ID from the OpenAI API.
Args:
response_id (str): The ID of the response to retrieve.
include (Optional[List[Includable]]): Additional fields to include
in the response. See the `include` parameter for Response
creation above for more information.
"""
return PollingOperation(
poll_endpoint=ApiEndpoint(
path=f"{RESPONSES_ENDPOINT}/{response_id}",
method=HttpMethod.GET,
request_model=EmptyRequest,
response_model=OpenAIResponse,
query_params={"include": include},
),
completed_statuses=["completed"],
failed_statuses=["failed"],
status_extractor=lambda response: response.status,
auth_kwargs=auth_kwargs,
).execute()
def get_message_content_from_response(
self, response: OpenAIResponse
) -> list[OutputContent]:
"""Extract message content from the API response."""
for output in response.output:
if output.root.type == "message":
return output.root.content
raise TypeError("No output message found in response")
def get_text_from_message_content(
self, message_content: list[OutputContent]
) -> str:
"""Extract text content from message content."""
for content_item in message_content:
if content_item.root.type == "output_text":
return str(content_item.root.text)
return "No text output found in response"
def get_history_text(self, session_id: str) -> str:
"""Convert the entire history for a given session to JSON string."""
return json.dumps(self.history[session_id])
def display_history_on_node(self, session_id: str, node_id: str) -> None:
"""Display formatted chat history on the node UI."""
render_spec = {
"node_id": node_id,
"component": "ChatHistoryWidget",
"props": {
"history": self.get_history_text(session_id),
},
}
PromptServer.instance.send_sync(
"display_component",
render_spec,
)
def add_to_history(
self, session_id: str, prompt: str, output_text: str, response_id: str
) -> None:
"""Add a new entry to the chat history."""
if session_id not in self.history:
self.history[session_id] = []
self.history[session_id].append(
{
"prompt": prompt,
"response": output_text,
"response_id": response_id,
"timestamp": time.time(),
}
)
def parse_output_text_from_response(self, response: OpenAIResponse) -> str:
"""Extract text output from the API response."""
message_contents = self.get_message_content_from_response(response)
return self.get_text_from_message_content(message_contents)
def generate_new_session_id(self) -> str:
"""Generate a new unique session ID."""
return str(uuid.uuid4())
def get_session_id(self, persist_context: bool) -> str:
"""Get the current or generate a new session ID based on context persistence."""
return (
self.current_session_id
if persist_context
else self.generate_new_session_id()
)
def tensor_to_input_image_content(
self, image: torch.Tensor, detail_level: Detail = "auto"
) -> InputImageContent:
"""Convert a tensor to an input image content object."""
return InputImageContent(
detail=detail_level,
image_url=f"data:image/png;base64,{tensor_to_base64_string(image)}",
type="input_image",
)
def create_input_message_contents(
self,
prompt: str,
image: Optional[torch.Tensor] = None,
files: Optional[list[InputFileContent]] = None,
) -> InputMessageContentList:
"""Create a list of input message contents from prompt and optional image."""
content_list: list[InputContent] = [
InputTextContent(text=prompt, type="input_text"),
]
if image is not None:
for i in range(image.shape[0]):
content_list.append(
self.tensor_to_input_image_content(image[i].unsqueeze(0))
)
if files is not None:
content_list.extend(files)
return InputMessageContentList(
root=content_list,
)
def parse_response_id_from_prompt(self, prompt: str) -> Optional[str]:
"""Extract response ID from prompt if it exists."""
parsed_id = re.search(STARTING_POINT_ID_PATTERN, prompt)
return parsed_id.group(1) if parsed_id else None
def strip_response_tag_from_prompt(self, prompt: str) -> str:
"""Remove the response ID tag from the prompt."""
return re.sub(STARTING_POINT_ID_PATTERN, "", prompt.strip())
def delete_history_after_response_id(
self, new_start_id: str, session_id: str
) -> None:
"""Delete history entries after a specific response ID."""
if session_id not in self.history:
return
new_history = []
i = 0
while (
i < len(self.history[session_id])
and self.history[session_id][i]["response_id"] != new_start_id
):
new_history.append(self.history[session_id][i])
i += 1
# Since it's the new starting point (not the response being edited), we include it as well
if i < len(self.history[session_id]):
new_history.append(self.history[session_id][i])
self.history[session_id] = new_history
def api_call(
self,
prompt: str,
persist_context: bool,
model: SupportedOpenAIModel,
unique_id: Optional[str] = None,
images: Optional[torch.Tensor] = None,
files: Optional[list[InputFileContent]] = None,
advanced_options: Optional[CreateModelResponseProperties] = None,
**kwargs,
) -> tuple[str]:
# Validate inputs
validate_string(prompt, strip_whitespace=False)
session_id = self.get_session_id(persist_context)
response_id_override = self.parse_response_id_from_prompt(prompt)
if response_id_override:
is_starting_from_beginning = response_id_override == "start"
if is_starting_from_beginning:
self.history[session_id] = []
previous_response_id = None
else:
previous_response_id = response_id_override
self.delete_history_after_response_id(response_id_override, session_id)
prompt = self.strip_response_tag_from_prompt(prompt)
elif persist_context:
previous_response_id = self.previous_response_id
else:
previous_response_id = None
# Create response
create_response = SynchronousOperation(
endpoint=ApiEndpoint(
path=RESPONSES_ENDPOINT,
method=HttpMethod.POST,
request_model=OpenAICreateResponse,
response_model=OpenAIResponse,
),
request=OpenAICreateResponse(
input=[
Item(
root=InputMessage(
content=self.create_input_message_contents(
prompt, images, files
),
role="user",
)
),
],
store=True,
stream=False,
model=model,
previous_response_id=previous_response_id,
**(
advanced_options.model_dump(exclude_none=True)
if advanced_options
else {}
),
),
auth_kwargs=kwargs,
).execute()
response_id = create_response.id
# Get result output
result_response = self.get_result_response(response_id, auth_kwargs=kwargs)
output_text = self.parse_output_text_from_response(result_response)
# Update history
self.add_to_history(session_id, prompt, output_text, response_id)
self.display_history_on_node(session_id, unique_id)
self.previous_response_id = response_id
return (output_text,)
class OpenAIInputFiles(ComfyNodeABC):
"""
Loads and formats input files for OpenAI API.
"""
@classmethod
def INPUT_TYPES(cls) -> InputTypeDict:
"""
For details about the supported file input types, see:
https://platform.openai.com/docs/guides/pdf-files?api-mode=responses
"""
input_dir = folder_paths.get_input_directory()
input_files = [
f
for f in os.scandir(input_dir)
if f.is_file()
and (f.name.endswith(".txt") or f.name.endswith(".pdf"))
and f.stat().st_size < 32 * 1024 * 1024
]
input_files = sorted(input_files, key=lambda x: x.name)
input_files = [f.name for f in input_files]
return {
"required": {
"file": (
IO.COMBO,
{
"tooltip": "Input files to include as context for the model. Only accepts text (.txt) and PDF (.pdf) files for now.",
"options": input_files,
"default": input_files[0] if input_files else None,
},
),
},
"optional": {
"OPENAI_INPUT_FILES": (
"OPENAI_INPUT_FILES",
{
"tooltip": "An optional additional file(s) to batch together with the file loaded from this node. Allows chaining of input files so that a single message can include multiple input files.",
"default": None,
},
),
},
}
DESCRIPTION = "Loads and prepares input files (text, pdf, etc.) to include as inputs for the OpenAI Chat Node. The files will be read by the OpenAI model when generating a response. 🛈 TIP: Can be chained together with other OpenAI Input File nodes."
RETURN_TYPES = ("OPENAI_INPUT_FILES",)
FUNCTION = "prepare_files"
CATEGORY = "api node/text/OpenAI"
def create_input_file_content(self, file_path: str) -> InputFileContent:
return InputFileContent(
file_data=text_filepath_to_data_uri(file_path),
filename=os.path.basename(file_path),
type="input_file",
)
def prepare_files(
self, file: str, OPENAI_INPUT_FILES: list[InputFileContent] = []
) -> tuple[list[InputFileContent]]:
"""
Loads and formats input files for OpenAI API.
"""
file_path = folder_paths.get_annotated_filepath(file)
input_file_content = self.create_input_file_content(file_path)
files = [input_file_content] + OPENAI_INPUT_FILES
return (files,)
class OpenAIChatConfig(ComfyNodeABC):
"""Allows setting additional configuration for the OpenAI Chat Node."""
RETURN_TYPES = ("OPENAI_CHAT_CONFIG",)
FUNCTION = "configure"
DESCRIPTION = (
"Allows specifying advanced configuration options for the OpenAI Chat Nodes."
)
CATEGORY = "api node/text/OpenAI"
@classmethod
def INPUT_TYPES(cls) -> InputTypeDict:
return {
"required": {
"truncation": (
IO.COMBO,
{
"options": ["auto", "disabled"],
"default": "auto",
"tooltip": "The truncation strategy to use for the model response. auto: If the context of this response and previous ones exceeds the model's context window size, the model will truncate the response to fit the context window by dropping input items in the middle of the conversation.disabled: If a model response will exceed the context window size for a model, the request will fail with a 400 error",
},
),
},
"optional": {
"max_output_tokens": model_field_to_node_input(
IO.INT,
OpenAICreateResponse,
"max_output_tokens",
min=16,
default=4096,
max=16384,
tooltip="An upper bound for the number of tokens that can be generated for a response, including visible output tokens",
),
"instructions": model_field_to_node_input(
IO.STRING, OpenAICreateResponse, "instructions", multiline=True
),
},
}
def configure(
self,
truncation: bool,
instructions: Optional[str] = None,
max_output_tokens: Optional[int] = None,
) -> tuple[CreateModelResponseProperties]:
"""
Configure advanced options for the OpenAI Chat Node.
Note:
While `top_p` and `temperature` are listed as properties in the
spec, they are not supported for all models (e.g., o4-mini).
They are not exposed as inputs at all to avoid having to manually
remove depending on model choice.
"""
return (
CreateModelResponseProperties(
instructions=instructions,
truncation=truncation,
max_output_tokens=max_output_tokens,
),
)
NODE_CLASS_MAPPINGS = {
"OpenAIDalle2": OpenAIDalle2,
"OpenAIDalle3": OpenAIDalle3,
"OpenAIGPTImage1": OpenAIGPTImage1,
"OpenAIChatNode": OpenAIChatNode,
"OpenAIInputFiles": OpenAIInputFiles,
"OpenAIChatConfig": OpenAIChatConfig,
}
# A dictionary that contains the friendly/humanly readable titles for the nodes
NODE_DISPLAY_NAME_MAPPINGS = {
"OpenAIDalle2": "OpenAI DALL·E 2",
"OpenAIDalle3": "OpenAI DALL·E 3",
"OpenAIGPTImage1": "OpenAI GPT Image 1",
"OpenAIChatNode": "OpenAI Chat",
"OpenAIInputFiles": "OpenAI Chat Input Files",
"OpenAIChatConfig": "OpenAI Chat Advanced Options",
}

91
comfy_api_nodes/nodes_pika.py
View File

@ -6,40 +6,42 @@ Pika API docs: https://pika-827374fb.mintlify.app/api-reference
from __future__ import annotations
import io
from typing import Optional, TypeVar
import logging
import torch
from typing import Optional, TypeVar
import numpy as np
import torch
from comfy.comfy_types.node_typing import IO, ComfyNodeABC, InputTypeOptions
from comfy_api.input_impl import VideoFromFile
from comfy_api.input_impl.video_types import VideoCodec, VideoContainer, VideoInput
from comfy_api_nodes.apinode_utils import (
download_url_to_video_output,
tensor_to_bytesio,
)
from comfy_api_nodes.apis import (
PikaBodyGenerate22T2vGenerate22T2vPost,
PikaGenerateResponse,
PikaBodyGenerate22I2vGenerate22I2vPost,
PikaVideoResponse,
PikaBodyGenerate22C2vGenerate22PikascenesPost,
IngredientsMode,
PikaDurationEnum,
PikaResolutionEnum,
PikaBodyGeneratePikaffectsGeneratePikaffectsPost,
PikaBodyGeneratePikadditionsGeneratePikadditionsPost,
PikaBodyGeneratePikaswapsGeneratePikaswapsPost,
PikaBodyGenerate22C2vGenerate22PikascenesPost,
PikaBodyGenerate22I2vGenerate22I2vPost,
PikaBodyGenerate22KeyframeGenerate22PikaframesPost,
PikaBodyGenerate22T2vGenerate22T2vPost,
PikaBodyGeneratePikadditionsGeneratePikadditionsPost,
PikaBodyGeneratePikaffectsGeneratePikaffectsPost,
PikaBodyGeneratePikaswapsGeneratePikaswapsPost,
PikaDurationEnum,
Pikaffect,
PikaGenerateResponse,
PikaResolutionEnum,
PikaVideoResponse,
)
from comfy_api_nodes.apis.client import (
ApiEndpoint,
HttpMethod,
SynchronousOperation,
PollingOperation,
EmptyRequest,
)
from comfy_api_nodes.apinode_utils import (
tensor_to_bytesio,
download_url_to_video_output,
HttpMethod,
PollingOperation,
SynchronousOperation,
)
from comfy_api_nodes.mapper_utils import model_field_to_node_input
from comfy_api.input_impl.video_types import VideoInput, VideoContainer, VideoCodec
from comfy_api.input_impl import VideoFromFile
from comfy.comfy_types.node_typing import IO, ComfyNodeABC, InputTypeOptions
R = TypeVar("R")
@ -121,7 +123,10 @@ class PikaNodeBase(ComfyNodeABC):
RETURN_TYPES = ("VIDEO",)
def poll_for_task_status(
self, task_id: str, auth_kwargs: Optional[dict[str,str]] = None
self,
task_id: str,
auth_kwargs: Optional[dict[str, str]] = None,
node_id: Optional[str] = None,
) -> PikaGenerateResponse:
polling_operation = PollingOperation(
poll_endpoint=ApiEndpoint(
@ -141,13 +146,19 @@ class PikaNodeBase(ComfyNodeABC):
response.progress if hasattr(response, "progress") else None
),
auth_kwargs=auth_kwargs,
result_url_extractor=lambda response: (
response.url if hasattr(response, "url") else None
),
node_id=node_id,
estimated_duration=60
)
return polling_operation.execute()
def execute_task(
self,
initial_operation: SynchronousOperation[R, PikaGenerateResponse],
auth_kwargs: Optional[dict[str,str]] = None,
auth_kwargs: Optional[dict[str, str]] = None,
node_id: Optional[str] = None,
) -> tuple[VideoFromFile]:
"""Executes the initial operation then polls for the task status until it is completed.
@ -195,6 +206,7 @@ class PikaImageToVideoV2_2(PikaNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -208,7 +220,8 @@ class PikaImageToVideoV2_2(PikaNodeBase):
seed: int,
resolution: str,
duration: int,
**kwargs
unique_id: str,
**kwargs,
) -> tuple[VideoFromFile]:
# Convert image to BytesIO
image_bytes_io = tensor_to_bytesio(image)
@ -238,7 +251,7 @@ class PikaImageToVideoV2_2(PikaNodeBase):
auth_kwargs=kwargs,
)
return self.execute_task(initial_operation, auth_kwargs=kwargs)
return self.execute_task(initial_operation, auth_kwargs=kwargs, node_id=unique_id)
class PikaTextToVideoNodeV2_2(PikaNodeBase):
@ -262,6 +275,7 @@ class PikaTextToVideoNodeV2_2(PikaNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -275,6 +289,7 @@ class PikaTextToVideoNodeV2_2(PikaNodeBase):
resolution: str,
duration: int,
aspect_ratio: float,
unique_id: str,
**kwargs,
) -> tuple[VideoFromFile]:
initial_operation = SynchronousOperation(
@ -296,7 +311,7 @@ class PikaTextToVideoNodeV2_2(PikaNodeBase):
content_type="application/x-www-form-urlencoded",
)
return self.execute_task(initial_operation, auth_kwargs=kwargs)
return self.execute_task(initial_operation, auth_kwargs=kwargs, node_id=unique_id)
class PikaScenesV2_2(PikaNodeBase):
@ -340,6 +355,7 @@ class PikaScenesV2_2(PikaNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -354,6 +370,7 @@ class PikaScenesV2_2(PikaNodeBase):
duration: int,
ingredients_mode: str,
aspect_ratio: float,
unique_id: str,
image_ingredient_1: Optional[torch.Tensor] = None,
image_ingredient_2: Optional[torch.Tensor] = None,
image_ingredient_3: Optional[torch.Tensor] = None,
@ -403,7 +420,7 @@ class PikaScenesV2_2(PikaNodeBase):
auth_kwargs=kwargs,
)
return self.execute_task(initial_operation, auth_kwargs=kwargs)
return self.execute_task(initial_operation, auth_kwargs=kwargs, node_id=unique_id)
class PikAdditionsNode(PikaNodeBase):
@ -439,10 +456,11 @@ class PikAdditionsNode(PikaNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
DESCRIPTION = "Add any object or image into your video. Upload a video and specify what youd like to add to create a seamlessly integrated result."
DESCRIPTION = "Add any object or image into your video. Upload a video and specify what you'd like to add to create a seamlessly integrated result."
def api_call(
self,
@ -451,6 +469,7 @@ class PikAdditionsNode(PikaNodeBase):
prompt_text: str,
negative_prompt: str,
seed: int,
unique_id: str,
**kwargs,
) -> tuple[VideoFromFile]:
# Convert video to BytesIO
@ -487,7 +506,7 @@ class PikAdditionsNode(PikaNodeBase):
auth_kwargs=kwargs,
)
return self.execute_task(initial_operation, auth_kwargs=kwargs)
return self.execute_task(initial_operation, auth_kwargs=kwargs, node_id=unique_id)
class PikaSwapsNode(PikaNodeBase):
@ -532,6 +551,7 @@ class PikaSwapsNode(PikaNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -546,6 +566,7 @@ class PikaSwapsNode(PikaNodeBase):
prompt_text: str,
negative_prompt: str,
seed: int,
unique_id: str,
**kwargs,
) -> tuple[VideoFromFile]:
# Convert video to BytesIO
@ -592,7 +613,7 @@ class PikaSwapsNode(PikaNodeBase):
auth_kwargs=kwargs,
)
return self.execute_task(initial_operation, auth_kwargs=kwargs)
return self.execute_task(initial_operation, auth_kwargs=kwargs, node_id=unique_id)
class PikaffectsNode(PikaNodeBase):
@ -637,6 +658,7 @@ class PikaffectsNode(PikaNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -649,6 +671,7 @@ class PikaffectsNode(PikaNodeBase):
prompt_text: str,
negative_prompt: str,
seed: int,
unique_id: str,
**kwargs,
) -> tuple[VideoFromFile]:
@ -670,7 +693,7 @@ class PikaffectsNode(PikaNodeBase):
auth_kwargs=kwargs,
)
return self.execute_task(initial_operation, auth_kwargs=kwargs)
return self.execute_task(initial_operation, auth_kwargs=kwargs, node_id=unique_id)
class PikaStartEndFrameNode2_2(PikaNodeBase):
@ -689,6 +712,7 @@ class PikaStartEndFrameNode2_2(PikaNodeBase):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -703,6 +727,7 @@ class PikaStartEndFrameNode2_2(PikaNodeBase):
seed: int,
resolution: str,
duration: int,
unique_id: str,
**kwargs,
) -> tuple[VideoFromFile]:
@ -733,7 +758,7 @@ class PikaStartEndFrameNode2_2(PikaNodeBase):
auth_kwargs=kwargs,
)
return self.execute_task(initial_operation, auth_kwargs=kwargs)
return self.execute_task(initial_operation, auth_kwargs=kwargs, node_id=unique_id)
NODE_CLASS_MAPPINGS = {

99
comfy_api_nodes/nodes_pixverse.py
View File

@ -1,5 +1,5 @@
from inspect import cleandoc
from typing import Optional
from comfy_api_nodes.apis.pixverse_api import (
PixverseTextVideoRequest,
PixverseImageVideoRequest,
@ -34,11 +34,22 @@ import requests
from io import BytesIO
AVERAGE_DURATION_T2V = 32
AVERAGE_DURATION_I2V = 30
AVERAGE_DURATION_T2T = 52
def get_video_url_from_response(
response: PixverseGenerationStatusResponse,
) -> Optional[str]:
if response.Resp is None or response.Resp.url is None:
return None
return str(response.Resp.url)
def upload_image_to_pixverse(image: torch.Tensor, auth_kwargs=None):
# first, upload image to Pixverse and get image id to use in actual generation call
files = {
"image": tensor_to_bytesio(image)
}
files = {"image": tensor_to_bytesio(image)}
operation = SynchronousOperation(
endpoint=ApiEndpoint(
path="/proxy/pixverse/image/upload",
@ -54,7 +65,9 @@ def upload_image_to_pixverse(image: torch.Tensor, auth_kwargs=None):
response_upload: PixverseImageUploadResponse = operation.execute()
if response_upload.Resp is None:
raise Exception(f"PixVerse image upload request failed: '{response_upload.ErrMsg}'")
raise Exception(
f"PixVerse image upload request failed: '{response_upload.ErrMsg}'"
)
return response_upload.Resp.img_id
@ -73,7 +86,7 @@ class PixverseTemplateNode:
def INPUT_TYPES(s):
return {
"required": {
"template": (list(pixverse_templates.keys()), ),
"template": (list(pixverse_templates.keys()),),
}
}
@ -87,7 +100,7 @@ class PixverseTemplateNode:
class PixverseTextToVideoNode(ComfyNodeABC):
"""
Generates videos synchronously based on prompt and output_size.
Generates videos based on prompt and output_size.
"""
RETURN_TYPES = (IO.VIDEO,)
@ -108,9 +121,7 @@ class PixverseTextToVideoNode(ComfyNodeABC):
"tooltip": "Prompt for the video generation",
},
),
"aspect_ratio": (
[ratio.value for ratio in PixverseAspectRatio],
),
"aspect_ratio": ([ratio.value for ratio in PixverseAspectRatio],),
"quality": (
[resolution.value for resolution in PixverseQuality],
{
@ -143,12 +154,13 @@ class PixverseTextToVideoNode(ComfyNodeABC):
PixverseIO.TEMPLATE,
{
"tooltip": "An optional template to influence style of generation, created by the PixVerse Template node."
}
)
},
),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -160,8 +172,9 @@ class PixverseTextToVideoNode(ComfyNodeABC):
duration_seconds: int,
motion_mode: str,
seed,
negative_prompt: str=None,
pixverse_template: int=None,
negative_prompt: str = None,
pixverse_template: int = None,
unique_id: Optional[str] = None,
**kwargs,
):
validate_string(prompt, strip_whitespace=False)
@ -205,19 +218,27 @@ class PixverseTextToVideoNode(ComfyNodeABC):
response_model=PixverseGenerationStatusResponse,
),
completed_statuses=[PixverseStatus.successful],
failed_statuses=[PixverseStatus.contents_moderation, PixverseStatus.failed, PixverseStatus.deleted],
failed_statuses=[
PixverseStatus.contents_moderation,
PixverseStatus.failed,
PixverseStatus.deleted,
],
status_extractor=lambda x: x.Resp.status,
auth_kwargs=kwargs,
node_id=unique_id,
result_url_extractor=get_video_url_from_response,
estimated_duration=AVERAGE_DURATION_T2V,
)
response_poll = operation.execute()
vid_response = requests.get(response_poll.Resp.url)
return (VideoFromFile(BytesIO(vid_response.content)),)
class PixverseImageToVideoNode(ComfyNodeABC):
"""
Generates videos synchronously based on prompt and output_size.
Generates videos based on prompt and output_size.
"""
RETURN_TYPES = (IO.VIDEO,)
@ -230,9 +251,7 @@ class PixverseImageToVideoNode(ComfyNodeABC):
def INPUT_TYPES(s):
return {
"required": {
"image": (
IO.IMAGE,
),
"image": (IO.IMAGE,),
"prompt": (
IO.STRING,
{
@ -273,12 +292,13 @@ class PixverseImageToVideoNode(ComfyNodeABC):
PixverseIO.TEMPLATE,
{
"tooltip": "An optional template to influence style of generation, created by the PixVerse Template node."
}
)
},
),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -290,8 +310,9 @@ class PixverseImageToVideoNode(ComfyNodeABC):
duration_seconds: int,
motion_mode: str,
seed,
negative_prompt: str=None,
pixverse_template: int=None,
negative_prompt: str = None,
pixverse_template: int = None,
unique_id: Optional[str] = None,
**kwargs,
):
validate_string(prompt, strip_whitespace=False)
@ -337,9 +358,16 @@ class PixverseImageToVideoNode(ComfyNodeABC):
response_model=PixverseGenerationStatusResponse,
),
completed_statuses=[PixverseStatus.successful],
failed_statuses=[PixverseStatus.contents_moderation, PixverseStatus.failed, PixverseStatus.deleted],
failed_statuses=[
PixverseStatus.contents_moderation,
PixverseStatus.failed,
PixverseStatus.deleted,
],
status_extractor=lambda x: x.Resp.status,
auth_kwargs=kwargs,
node_id=unique_id,
result_url_extractor=get_video_url_from_response,
estimated_duration=AVERAGE_DURATION_I2V,
)
response_poll = operation.execute()
@ -349,7 +377,7 @@ class PixverseImageToVideoNode(ComfyNodeABC):
class PixverseTransitionVideoNode(ComfyNodeABC):
"""
Generates videos synchronously based on prompt and output_size.
Generates videos based on prompt and output_size.
"""
RETURN_TYPES = (IO.VIDEO,)
@ -362,12 +390,8 @@ class PixverseTransitionVideoNode(ComfyNodeABC):
def INPUT_TYPES(s):
return {
"required": {
"first_frame": (
IO.IMAGE,
),
"last_frame": (
IO.IMAGE,
),
"first_frame": (IO.IMAGE,),
"last_frame": (IO.IMAGE,),
"prompt": (
IO.STRING,
{
@ -408,6 +432,7 @@ class PixverseTransitionVideoNode(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -420,7 +445,8 @@ class PixverseTransitionVideoNode(ComfyNodeABC):
duration_seconds: int,
motion_mode: str,
seed,
negative_prompt: str=None,
negative_prompt: str = None,
unique_id: Optional[str] = None,
**kwargs,
):
validate_string(prompt, strip_whitespace=False)
@ -467,9 +493,16 @@ class PixverseTransitionVideoNode(ComfyNodeABC):
response_model=PixverseGenerationStatusResponse,
),
completed_statuses=[PixverseStatus.successful],
failed_statuses=[PixverseStatus.contents_moderation, PixverseStatus.failed, PixverseStatus.deleted],
failed_statuses=[
PixverseStatus.contents_moderation,
PixverseStatus.failed,
PixverseStatus.deleted,
],
status_extractor=lambda x: x.Resp.status,
auth_kwargs=kwargs,
node_id=unique_id,
result_url_extractor=get_video_url_from_response,
estimated_duration=AVERAGE_DURATION_T2V,
)
response_poll = operation.execute()

21
comfy_api_nodes/nodes_recraft.py
View File

@ -1,5 +1,6 @@
from __future__ import annotations
from inspect import cleandoc
from typing import Optional
from comfy.utils import ProgressBar
from comfy_extras.nodes_images import SVG # Added
from comfy.comfy_types.node_typing import IO
@ -29,6 +30,8 @@ from comfy_api_nodes.apinode_utils import (
resize_mask_to_image,
validate_string,
)
from server import PromptServer
import torch
from io import BytesIO
from PIL import UnidentifiedImageError
@ -388,6 +391,7 @@ class RecraftTextToImageNode:
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -400,6 +404,7 @@ class RecraftTextToImageNode:
recraft_style: RecraftStyle = None,
negative_prompt: str = None,
recraft_controls: RecraftControls = None,
unique_id: Optional[str] = None,
**kwargs,
):
validate_string(prompt, strip_whitespace=False, max_length=1000)
@ -436,8 +441,15 @@ class RecraftTextToImageNode:
)
response: RecraftImageGenerationResponse = operation.execute()
images = []
urls = []
for data in response.data:
with handle_recraft_image_output():
if unique_id and data.url:
urls.append(data.url)
urls_string = '\n'.join(urls)
PromptServer.instance.send_progress_text(
f"Result URL: {urls_string}", unique_id
)
image = bytesio_to_image_tensor(
download_url_to_bytesio(data.url, timeout=1024)
)
@ -763,6 +775,7 @@ class RecraftTextToVectorNode:
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -775,6 +788,7 @@ class RecraftTextToVectorNode:
seed,
negative_prompt: str = None,
recraft_controls: RecraftControls = None,
unique_id: Optional[str] = None,
**kwargs,
):
validate_string(prompt, strip_whitespace=False, max_length=1000)
@ -809,7 +823,14 @@ class RecraftTextToVectorNode:
)
response: RecraftImageGenerationResponse = operation.execute()
svg_data = []
urls = []
for data in response.data:
if unique_id and data.url:
urls.append(data.url)
# Print result on each iteration in case of error
PromptServer.instance.send_progress_text(
f"Result URL: {' '.join(urls)}", unique_id
)
svg_data.append(download_url_to_bytesio(data.url, timeout=1024))
return (SVG(svg_data),)

462
comfy_api_nodes/nodes_rodin.py Normal file
View File

@ -0,0 +1,462 @@
"""
ComfyUI X Rodin3D(Deemos) API Nodes
Rodin API docs: https://developer.hyper3d.ai/
"""
from __future__ import annotations
from inspect import cleandoc
from comfy.comfy_types.node_typing import IO
import folder_paths as comfy_paths
import requests
import os
import datetime
import shutil
import time
import io
import logging
import math
from PIL import Image
from comfy_api_nodes.apis.rodin_api import (
Rodin3DGenerateRequest,
Rodin3DGenerateResponse,
Rodin3DCheckStatusRequest,
Rodin3DCheckStatusResponse,
Rodin3DDownloadRequest,
Rodin3DDownloadResponse,
JobStatus,
)
from comfy_api_nodes.apis.client import (
ApiEndpoint,
HttpMethod,
SynchronousOperation,
PollingOperation,
)
COMMON_PARAMETERS = {
"Seed": (
IO.INT,
{
"default":0,
"min":0,
"max":65535,
"display":"number"
}
),
"Material_Type": (
IO.COMBO,
{
"options": ["PBR", "Shaded"],
"default": "PBR"
}
),
"Polygon_count": (
IO.COMBO,
{
"options": ["4K-Quad", "8K-Quad", "18K-Quad", "50K-Quad", "200K-Triangle"],
"default": "18K-Quad"
}
)
}
def create_task_error(response: Rodin3DGenerateResponse):
"""Check if the response has error"""
return hasattr(response, "error")
class Rodin3DAPI:
"""
Generate 3D Assets using Rodin API
"""
RETURN_TYPES = (IO.STRING,)
RETURN_NAMES = ("3D Model Path",)
CATEGORY = "api node/3d/Rodin"
DESCRIPTION = cleandoc(__doc__ or "")
FUNCTION = "api_call"
API_NODE = True
def tensor_to_filelike(self, tensor, max_pixels: int = 2048*2048):
"""
Converts a PyTorch tensor to a file-like object.
Args:
- tensor (torch.Tensor): A tensor representing an image of shape (H, W, C)
where C is the number of channels (3 for RGB), H is height, and W is width.
Returns:
- io.BytesIO: A file-like object containing the image data.
"""
array = tensor.cpu().numpy()
array = (array * 255).astype('uint8')
image = Image.fromarray(array, 'RGB')
original_width, original_height = image.size
original_pixels = original_width * original_height
if original_pixels > max_pixels:
scale = math.sqrt(max_pixels / original_pixels)
new_width = int(original_width * scale)
new_height = int(original_height * scale)
else:
new_width, new_height = original_width, original_height
if new_width != original_width or new_height != original_height:
image = image.resize((new_width, new_height), Image.Resampling.LANCZOS)
img_byte_arr = io.BytesIO()
image.save(img_byte_arr, format='PNG') # PNG is used for lossless compression
img_byte_arr.seek(0)
return img_byte_arr
def check_rodin_status(self, response: Rodin3DCheckStatusResponse) -> str:
has_failed = any(job.status == JobStatus.Failed for job in response.jobs)
all_done = all(job.status == JobStatus.Done for job in response.jobs)
status_list = [str(job.status) for job in response.jobs]
logging.info(f"[ Rodin3D API - CheckStatus ] Generate Status: {status_list}")
if has_failed:
logging.error(f"[ Rodin3D API - CheckStatus ] Generate Failed: {status_list}, Please try again.")
raise Exception("[ Rodin3D API ] Generate Failed, Please Try again.")
elif all_done:
return "DONE"
else:
return "Generating"
def CreateGenerateTask(self, images=None, seed=1, material="PBR", quality="medium", tier="Regular", mesh_mode="Quad", **kwargs):
if images == None:
raise Exception("Rodin 3D generate requires at least 1 image.")
if len(images) >= 5:
raise Exception("Rodin 3D generate requires up to 5 image.")
path = "/proxy/rodin/api/v2/rodin"
operation = SynchronousOperation(
endpoint=ApiEndpoint(
path=path,
method=HttpMethod.POST,
request_model=Rodin3DGenerateRequest,
response_model=Rodin3DGenerateResponse,
),
request=Rodin3DGenerateRequest(
seed=seed,
tier=tier,
material=material,
quality=quality,
mesh_mode=mesh_mode
),
files=[
(
"images",
open(image, "rb") if isinstance(image, str) else self.tensor_to_filelike(image)
)
for image in images if image is not None
],
content_type = "multipart/form-data",
auth_kwargs=kwargs,
)
response = operation.execute()
if create_task_error(response):
error_message = f"Rodin3D Create 3D generate Task Failed. Message: {response.message}, error: {response.error}"
logging.error(error_message)
raise Exception(error_message)
logging.info("[ Rodin3D API - Submit Jobs ] Submit Generate Task Success!")
subscription_key = response.jobs.subscription_key
task_uuid = response.uuid
logging.info(f"[ Rodin3D API - Submit Jobs ] UUID: {task_uuid}")
return task_uuid, subscription_key
def poll_for_task_status(self, subscription_key, **kwargs) -> Rodin3DCheckStatusResponse:
path = "/proxy/rodin/api/v2/status"
poll_operation = PollingOperation(
poll_endpoint=ApiEndpoint(
path = path,
method=HttpMethod.POST,
request_model=Rodin3DCheckStatusRequest,
response_model=Rodin3DCheckStatusResponse,
),
request=Rodin3DCheckStatusRequest(
subscription_key = subscription_key
),
completed_statuses=["DONE"],
failed_statuses=["FAILED"],
status_extractor=self.check_rodin_status,
poll_interval=3.0,
auth_kwargs=kwargs,
)
logging.info("[ Rodin3D API - CheckStatus ] Generate Start!")
return poll_operation.execute()
def GetRodinDownloadList(self, uuid, **kwargs) -> Rodin3DDownloadResponse:
logging.info("[ Rodin3D API - Downloading ] Generate Successfully!")
path = "/proxy/rodin/api/v2/download"
operation = SynchronousOperation(
endpoint=ApiEndpoint(
path=path,
method=HttpMethod.POST,
request_model=Rodin3DDownloadRequest,
response_model=Rodin3DDownloadResponse,
),
request=Rodin3DDownloadRequest(
task_uuid=uuid
),
auth_kwargs=kwargs
)
return operation.execute()
def GetQualityAndMode(self, PolyCount):
if PolyCount == "200K-Triangle":
mesh_mode = "Raw"
quality = "medium"
else:
mesh_mode = "Quad"
if PolyCount == "4K-Quad":
quality = "extra-low"
elif PolyCount == "8K-Quad":
quality = "low"
elif PolyCount == "18K-Quad":
quality = "medium"
elif PolyCount == "50K-Quad":
quality = "high"
else:
quality = "medium"
return mesh_mode, quality
def DownLoadFiles(self, Url_List):
Save_path = os.path.join(comfy_paths.get_output_directory(), "Rodin3D", datetime.datetime.now().strftime("%Y-%m-%d_%H-%M-%S"))
os.makedirs(Save_path, exist_ok=True)
model_file_path = None
for Item in Url_List.list:
url = Item.url
file_name = Item.name
file_path = os.path.join(Save_path, file_name)
if file_path.endswith(".glb"):
model_file_path = file_path
logging.info(f"[ Rodin3D API - download_files ] Downloading file: {file_path}")
max_retries = 5
for attempt in range(max_retries):
try:
with requests.get(url, stream=True) as r:
r.raise_for_status()
with open(file_path, "wb") as f:
shutil.copyfileobj(r.raw, f)
break
except Exception as e:
logging.info(f"[ Rodin3D API - download_files ] Error downloading {file_path}:{e}")
if attempt < max_retries - 1:
logging.info("Retrying...")
time.sleep(2)
else:
logging.info(f"[ Rodin3D API - download_files ] Failed to download {file_path} after {max_retries} attempts.")
return model_file_path
class Rodin3D_Regular(Rodin3DAPI):
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"Images":
(
IO.IMAGE,
{
"forceInput":True,
}
)
},
"optional": {
**COMMON_PARAMETERS
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
},
}
def api_call(
self,
Images,
Seed,
Material_Type,
Polygon_count,
**kwargs
):
tier = "Regular"
num_images = Images.shape[0]
m_images = []
for i in range(num_images):
m_images.append(Images[i])
mesh_mode, quality = self.GetQualityAndMode(Polygon_count)
task_uuid, subscription_key = self.CreateGenerateTask(images=m_images, seed=Seed, material=Material_Type, quality=quality, tier=tier, mesh_mode=mesh_mode, **kwargs)
self.poll_for_task_status(subscription_key, **kwargs)
Download_List = self.GetRodinDownloadList(task_uuid, **kwargs)
model = self.DownLoadFiles(Download_List)
return (model,)
class Rodin3D_Detail(Rodin3DAPI):
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"Images":
(
IO.IMAGE,
{
"forceInput":True,
}
)
},
"optional": {
**COMMON_PARAMETERS
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
},
}
def api_call(
self,
Images,
Seed,
Material_Type,
Polygon_count,
**kwargs
):
tier = "Detail"
num_images = Images.shape[0]
m_images = []
for i in range(num_images):
m_images.append(Images[i])
mesh_mode, quality = self.GetQualityAndMode(Polygon_count)
task_uuid, subscription_key = self.CreateGenerateTask(images=m_images, seed=Seed, material=Material_Type, quality=quality, tier=tier, mesh_mode=mesh_mode, **kwargs)
self.poll_for_task_status(subscription_key, **kwargs)
Download_List = self.GetRodinDownloadList(task_uuid, **kwargs)
model = self.DownLoadFiles(Download_List)
return (model,)
class Rodin3D_Smooth(Rodin3DAPI):
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"Images":
(
IO.IMAGE,
{
"forceInput":True,
}
)
},
"optional": {
**COMMON_PARAMETERS
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
},
}
def api_call(
self,
Images,
Seed,
Material_Type,
Polygon_count,
**kwargs
):
tier = "Smooth"
num_images = Images.shape[0]
m_images = []
for i in range(num_images):
m_images.append(Images[i])
mesh_mode, quality = self.GetQualityAndMode(Polygon_count)
task_uuid, subscription_key = self.CreateGenerateTask(images=m_images, seed=Seed, material=Material_Type, quality=quality, tier=tier, mesh_mode=mesh_mode, **kwargs)
self.poll_for_task_status(subscription_key, **kwargs)
Download_List = self.GetRodinDownloadList(task_uuid, **kwargs)
model = self.DownLoadFiles(Download_List)
return (model,)
class Rodin3D_Sketch(Rodin3DAPI):
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"Images":
(
IO.IMAGE,
{
"forceInput":True,
}
)
},
"optional": {
"Seed":
(
IO.INT,
{
"default":0,
"min":0,
"max":65535,
"display":"number"
}
)
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
},
}
def api_call(
self,
Images,
Seed,
**kwargs
):
tier = "Sketch"
num_images = Images.shape[0]
m_images = []
for i in range(num_images):
m_images.append(Images[i])
material_type = "PBR"
quality = "medium"
mesh_mode = "Quad"
task_uuid, subscription_key = self.CreateGenerateTask(images=m_images, seed=Seed, material=material_type, quality=quality, tier=tier, mesh_mode=mesh_mode, **kwargs)
self.poll_for_task_status(subscription_key, **kwargs)
Download_List = self.GetRodinDownloadList(task_uuid, **kwargs)
model = self.DownLoadFiles(Download_List)
return (model,)
# A dictionary that contains all nodes you want to export with their names
# NOTE: names should be globally unique
NODE_CLASS_MAPPINGS = {
"Rodin3D_Regular": Rodin3D_Regular,
"Rodin3D_Detail": Rodin3D_Detail,
"Rodin3D_Smooth": Rodin3D_Smooth,
"Rodin3D_Sketch": Rodin3D_Sketch,
}
# A dictionary that contains the friendly/humanly readable titles for the nodes
NODE_DISPLAY_NAME_MAPPINGS = {
"Rodin3D_Regular": "Rodin 3D Generate - Regular Generate",
"Rodin3D_Detail": "Rodin 3D Generate - Detail Generate",
"Rodin3D_Smooth": "Rodin 3D Generate - Smooth Generate",
"Rodin3D_Sketch": "Rodin 3D Generate - Sketch Generate",
}

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"""Runway API Nodes
API Docs:
- https://docs.dev.runwayml.com/api/#tag/Task-management/paths/~1v1~1tasks~1%7Bid%7D/delete
User Guides:
- https://help.runwayml.com/hc/en-us/sections/30265301423635-Gen-3-Alpha
- https://help.runwayml.com/hc/en-us/articles/37327109429011-Creating-with-Gen-4-Video
- https://help.runwayml.com/hc/en-us/articles/33927968552339-Creating-with-Act-One-on-Gen-3-Alpha-and-Turbo
- https://help.runwayml.com/hc/en-us/articles/34170748696595-Creating-with-Keyframes-on-Gen-3
"""
from typing import Union, Optional, Any
from enum import Enum
import torch
from comfy_api_nodes.apis import (
RunwayImageToVideoRequest,
RunwayImageToVideoResponse,
RunwayTaskStatusResponse as TaskStatusResponse,
RunwayTaskStatusEnum as TaskStatus,
RunwayModelEnum as Model,
RunwayDurationEnum as Duration,
RunwayAspectRatioEnum as AspectRatio,
RunwayPromptImageObject,
RunwayPromptImageDetailedObject,
RunwayTextToImageRequest,
RunwayTextToImageResponse,
Model4,
ReferenceImage,
RunwayTextToImageAspectRatioEnum,
)
from comfy_api_nodes.apis.client import (
ApiEndpoint,
HttpMethod,
SynchronousOperation,
PollingOperation,
EmptyRequest,
)
from comfy_api_nodes.apinode_utils import (
upload_images_to_comfyapi,
download_url_to_video_output,
image_tensor_pair_to_batch,
validate_string,
download_url_to_image_tensor,
)
from comfy_api_nodes.mapper_utils import model_field_to_node_input
from comfy_api.input_impl import VideoFromFile
from comfy.comfy_types.node_typing import IO, ComfyNodeABC
PATH_IMAGE_TO_VIDEO = "/proxy/runway/image_to_video"
PATH_TEXT_TO_IMAGE = "/proxy/runway/text_to_image"
PATH_GET_TASK_STATUS = "/proxy/runway/tasks"
AVERAGE_DURATION_I2V_SECONDS = 64
AVERAGE_DURATION_FLF_SECONDS = 256
AVERAGE_DURATION_T2I_SECONDS = 41
class RunwayApiError(Exception):
"""Base exception for Runway API errors."""
pass
class RunwayGen4TurboAspectRatio(str, Enum):
"""Aspect ratios supported for Image to Video API when using gen4_turbo model."""
field_1280_720 = "1280:720"
field_720_1280 = "720:1280"
field_1104_832 = "1104:832"
field_832_1104 = "832:1104"
field_960_960 = "960:960"
field_1584_672 = "1584:672"
class RunwayGen3aAspectRatio(str, Enum):
"""Aspect ratios supported for Image to Video API when using gen3a_turbo model."""
field_768_1280 = "768:1280"
field_1280_768 = "1280:768"
def get_video_url_from_task_status(response: TaskStatusResponse) -> Union[str, None]:
"""Returns the video URL from the task status response if it exists."""
if response.output and len(response.output) > 0:
return response.output[0]
return None
# TODO: replace with updated image validation utils (upstream)
def validate_input_image(image: torch.Tensor) -> bool:
"""
Validate the input image is within the size limits for the Runway API.
See: https://docs.dev.runwayml.com/assets/inputs/#common-error-reasons
"""
return image.shape[2] < 8000 and image.shape[1] < 8000
def poll_until_finished(
auth_kwargs: dict[str, str],
api_endpoint: ApiEndpoint[Any, TaskStatusResponse],
estimated_duration: Optional[int] = None,
node_id: Optional[str] = None,
) -> TaskStatusResponse:
"""Polls the Runway API endpoint until the task reaches a terminal state, then returns the response."""
return PollingOperation(
poll_endpoint=api_endpoint,
completed_statuses=[
TaskStatus.SUCCEEDED.value,
],
failed_statuses=[
TaskStatus.FAILED.value,
TaskStatus.CANCELLED.value,
],
status_extractor=lambda response: (response.status.value),
auth_kwargs=auth_kwargs,
result_url_extractor=get_video_url_from_task_status,
estimated_duration=estimated_duration,
node_id=node_id,
progress_extractor=extract_progress_from_task_status,
).execute()
def extract_progress_from_task_status(
response: TaskStatusResponse,
) -> Union[float, None]:
if hasattr(response, "progress") and response.progress is not None:
return response.progress * 100
return None
def get_image_url_from_task_status(response: TaskStatusResponse) -> Union[str, None]:
"""Returns the image URL from the task status response if it exists."""
if response.output and len(response.output) > 0:
return response.output[0]
return None
class RunwayVideoGenNode(ComfyNodeABC):
"""Runway Video Node Base."""
RETURN_TYPES = ("VIDEO",)
FUNCTION = "api_call"
CATEGORY = "api node/video/Runway"
API_NODE = True
def validate_task_created(self, response: RunwayImageToVideoResponse) -> bool:
"""
Validate the task creation response from the Runway API matches
expected format.
"""
if not bool(response.id):
raise RunwayApiError("Invalid initial response from Runway API.")
return True
def validate_response(self, response: RunwayImageToVideoResponse) -> bool:
"""
Validate the successful task status response from the Runway API
matches expected format.
"""
if not response.output or len(response.output) == 0:
raise RunwayApiError(
"Runway task succeeded but no video data found in response."
)
return True
def get_response(
self, task_id: str, auth_kwargs: dict[str, str], node_id: Optional[str] = None
) -> RunwayImageToVideoResponse:
"""Poll the task status until it is finished then get the response."""
return poll_until_finished(
auth_kwargs,
ApiEndpoint(
path=f"{PATH_GET_TASK_STATUS}/{task_id}",
method=HttpMethod.GET,
request_model=EmptyRequest,
response_model=TaskStatusResponse,
),
estimated_duration=AVERAGE_DURATION_FLF_SECONDS,
node_id=node_id,
)
def generate_video(
self,
request: RunwayImageToVideoRequest,
auth_kwargs: dict[str, str],
node_id: Optional[str] = None,
) -> tuple[VideoFromFile]:
initial_operation = SynchronousOperation(
endpoint=ApiEndpoint(
path=PATH_IMAGE_TO_VIDEO,
method=HttpMethod.POST,
request_model=RunwayImageToVideoRequest,
response_model=RunwayImageToVideoResponse,
),
request=request,
auth_kwargs=auth_kwargs,
)
initial_response = initial_operation.execute()
self.validate_task_created(initial_response)
task_id = initial_response.id
final_response = self.get_response(task_id, auth_kwargs, node_id)
self.validate_response(final_response)
video_url = get_video_url_from_task_status(final_response)
return (download_url_to_video_output(video_url),)
class RunwayImageToVideoNodeGen3a(RunwayVideoGenNode):
"""Runway Image to Video Node using Gen3a Turbo model."""
DESCRIPTION = "Generate a video from a single starting frame using Gen3a Turbo model. Before diving in, review these best practices to ensure that your input selections will set your generation up for success: https://help.runwayml.com/hc/en-us/articles/33927968552339-Creating-with-Act-One-on-Gen-3-Alpha-and-Turbo."
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"prompt": model_field_to_node_input(
IO.STRING, RunwayImageToVideoRequest, "promptText", multiline=True
),
"start_frame": (
IO.IMAGE,
{"tooltip": "Start frame to be used for the video"},
),
"duration": model_field_to_node_input(
IO.COMBO, RunwayImageToVideoRequest, "duration", enum_type=Duration
),
"ratio": model_field_to_node_input(
IO.COMBO,
RunwayImageToVideoRequest,
"ratio",
enum_type=RunwayGen3aAspectRatio,
),
"seed": model_field_to_node_input(
IO.INT,
RunwayImageToVideoRequest,
"seed",
control_after_generate=True,
),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
def api_call(
self,
prompt: str,
start_frame: torch.Tensor,
duration: str,
ratio: str,
seed: int,
unique_id: Optional[str] = None,
**kwargs,
) -> tuple[VideoFromFile]:
# Validate inputs
validate_string(prompt, min_length=1)
validate_input_image(start_frame)
# Upload image
download_urls = upload_images_to_comfyapi(
start_frame,
max_images=1,
mime_type="image/png",
auth_kwargs=kwargs,
)
if len(download_urls) != 1:
raise RunwayApiError("Failed to upload one or more images to comfy api.")
return self.generate_video(
RunwayImageToVideoRequest(
promptText=prompt,
seed=seed,
model=Model("gen3a_turbo"),
duration=Duration(duration),
ratio=AspectRatio(ratio),
promptImage=RunwayPromptImageObject(
root=[
RunwayPromptImageDetailedObject(
uri=str(download_urls[0]), position="first"
)
]
),
),
auth_kwargs=kwargs,
node_id=unique_id,
)
class RunwayImageToVideoNodeGen4(RunwayVideoGenNode):
"""Runway Image to Video Node using Gen4 Turbo model."""
DESCRIPTION = "Generate a video from a single starting frame using Gen4 Turbo model. Before diving in, review these best practices to ensure that your input selections will set your generation up for success: https://help.runwayml.com/hc/en-us/articles/37327109429011-Creating-with-Gen-4-Video."
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"prompt": model_field_to_node_input(
IO.STRING, RunwayImageToVideoRequest, "promptText", multiline=True
),
"start_frame": (
IO.IMAGE,
{"tooltip": "Start frame to be used for the video"},
),
"duration": model_field_to_node_input(
IO.COMBO, RunwayImageToVideoRequest, "duration", enum_type=Duration
),
"ratio": model_field_to_node_input(
IO.COMBO,
RunwayImageToVideoRequest,
"ratio",
enum_type=RunwayGen4TurboAspectRatio,
),
"seed": model_field_to_node_input(
IO.INT,
RunwayImageToVideoRequest,
"seed",
control_after_generate=True,
),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
def api_call(
self,
prompt: str,
start_frame: torch.Tensor,
duration: str,
ratio: str,
seed: int,
unique_id: Optional[str] = None,
**kwargs,
) -> tuple[VideoFromFile]:
# Validate inputs
validate_string(prompt, min_length=1)
validate_input_image(start_frame)
# Upload image
download_urls = upload_images_to_comfyapi(
start_frame,
max_images=1,
mime_type="image/png",
auth_kwargs=kwargs,
)
if len(download_urls) != 1:
raise RunwayApiError("Failed to upload one or more images to comfy api.")
return self.generate_video(
RunwayImageToVideoRequest(
promptText=prompt,
seed=seed,
model=Model("gen4_turbo"),
duration=Duration(duration),
ratio=AspectRatio(ratio),
promptImage=RunwayPromptImageObject(
root=[
RunwayPromptImageDetailedObject(
uri=str(download_urls[0]), position="first"
)
]
),
),
auth_kwargs=kwargs,
node_id=unique_id,
)
class RunwayFirstLastFrameNode(RunwayVideoGenNode):
"""Runway First-Last Frame Node."""
DESCRIPTION = "Upload first and last keyframes, draft a prompt, and generate a video. More complex transitions, such as cases where the Last frame is completely different from the First frame, may benefit from the longer 10s duration. This would give the generation more time to smoothly transition between the two inputs. Before diving in, review these best practices to ensure that your input selections will set your generation up for success: https://help.runwayml.com/hc/en-us/articles/34170748696595-Creating-with-Keyframes-on-Gen-3."
def get_response(
self, task_id: str, auth_kwargs: dict[str, str], node_id: Optional[str] = None
) -> RunwayImageToVideoResponse:
return poll_until_finished(
auth_kwargs,
ApiEndpoint(
path=f"{PATH_GET_TASK_STATUS}/{task_id}",
method=HttpMethod.GET,
request_model=EmptyRequest,
response_model=TaskStatusResponse,
),
estimated_duration=AVERAGE_DURATION_FLF_SECONDS,
node_id=node_id,
)
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"prompt": model_field_to_node_input(
IO.STRING, RunwayImageToVideoRequest, "promptText", multiline=True
),
"start_frame": (
IO.IMAGE,
{"tooltip": "Start frame to be used for the video"},
),
"end_frame": (
IO.IMAGE,
{
"tooltip": "End frame to be used for the video. Supported for gen3a_turbo only."
},
),
"duration": model_field_to_node_input(
IO.COMBO, RunwayImageToVideoRequest, "duration", enum_type=Duration
),
"ratio": model_field_to_node_input(
IO.COMBO,
RunwayImageToVideoRequest,
"ratio",
enum_type=RunwayGen3aAspectRatio,
),
"seed": model_field_to_node_input(
IO.INT,
RunwayImageToVideoRequest,
"seed",
control_after_generate=True,
),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"unique_id": "UNIQUE_ID",
"comfy_api_key": "API_KEY_COMFY_ORG",
},
}
def api_call(
self,
prompt: str,
start_frame: torch.Tensor,
end_frame: torch.Tensor,
duration: str,
ratio: str,
seed: int,
unique_id: Optional[str] = None,
**kwargs,
) -> tuple[VideoFromFile]:
# Validate inputs
validate_string(prompt, min_length=1)
validate_input_image(start_frame)
validate_input_image(end_frame)
# Upload images
stacked_input_images = image_tensor_pair_to_batch(start_frame, end_frame)
download_urls = upload_images_to_comfyapi(
stacked_input_images,
max_images=2,
mime_type="image/png",
auth_kwargs=kwargs,
)
if len(download_urls) != 2:
raise RunwayApiError("Failed to upload one or more images to comfy api.")
return self.generate_video(
RunwayImageToVideoRequest(
promptText=prompt,
seed=seed,
model=Model("gen3a_turbo"),
duration=Duration(duration),
ratio=AspectRatio(ratio),
promptImage=RunwayPromptImageObject(
root=[
RunwayPromptImageDetailedObject(
uri=str(download_urls[0]), position="first"
),
RunwayPromptImageDetailedObject(
uri=str(download_urls[1]), position="last"
),
]
),
),
auth_kwargs=kwargs,
node_id=unique_id,
)
class RunwayTextToImageNode(ComfyNodeABC):
"""Runway Text to Image Node."""
RETURN_TYPES = ("IMAGE",)
FUNCTION = "api_call"
CATEGORY = "api node/image/Runway"
API_NODE = True
DESCRIPTION = "Generate an image from a text prompt using Runway's Gen 4 model. You can also include reference images to guide the generation."
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"prompt": model_field_to_node_input(
IO.STRING, RunwayTextToImageRequest, "promptText", multiline=True
),
"ratio": model_field_to_node_input(
IO.COMBO,
RunwayTextToImageRequest,
"ratio",
enum_type=RunwayTextToImageAspectRatioEnum,
),
},
"optional": {
"reference_image": (
IO.IMAGE,
{"tooltip": "Optional reference image to guide the generation"},
)
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
def validate_task_created(self, response: RunwayTextToImageResponse) -> bool:
"""
Validate the task creation response from the Runway API matches
expected format.
"""
if not bool(response.id):
raise RunwayApiError("Invalid initial response from Runway API.")
return True
def validate_response(self, response: TaskStatusResponse) -> bool:
"""
Validate the successful task status response from the Runway API
matches expected format.
"""
if not response.output or len(response.output) == 0:
raise RunwayApiError(
"Runway task succeeded but no image data found in response."
)
return True
def get_response(
self, task_id: str, auth_kwargs: dict[str, str], node_id: Optional[str] = None
) -> TaskStatusResponse:
"""Poll the task status until it is finished then get the response."""
return poll_until_finished(
auth_kwargs,
ApiEndpoint(
path=f"{PATH_GET_TASK_STATUS}/{task_id}",
method=HttpMethod.GET,
request_model=EmptyRequest,
response_model=TaskStatusResponse,
),
estimated_duration=AVERAGE_DURATION_T2I_SECONDS,
node_id=node_id,
)
def api_call(
self,
prompt: str,
ratio: str,
reference_image: Optional[torch.Tensor] = None,
unique_id: Optional[str] = None,
**kwargs,
) -> tuple[torch.Tensor]:
# Validate inputs
validate_string(prompt, min_length=1)
# Prepare reference images if provided
reference_images = None
if reference_image is not None:
validate_input_image(reference_image)
download_urls = upload_images_to_comfyapi(
reference_image,
max_images=1,
mime_type="image/png",
auth_kwargs=kwargs,
)
if len(download_urls) != 1:
raise RunwayApiError("Failed to upload reference image to comfy api.")
reference_images = [ReferenceImage(uri=str(download_urls[0]))]
# Create request
request = RunwayTextToImageRequest(
promptText=prompt,
model=Model4.gen4_image,
ratio=ratio,
referenceImages=reference_images,
)
# Execute initial request
initial_operation = SynchronousOperation(
endpoint=ApiEndpoint(
path=PATH_TEXT_TO_IMAGE,
method=HttpMethod.POST,
request_model=RunwayTextToImageRequest,
response_model=RunwayTextToImageResponse,
),
request=request,
auth_kwargs=kwargs,
)
initial_response = initial_operation.execute()
self.validate_task_created(initial_response)
task_id = initial_response.id
# Poll for completion
final_response = self.get_response(
task_id, auth_kwargs=kwargs, node_id=unique_id
)
self.validate_response(final_response)
# Download and return image
image_url = get_image_url_from_task_status(final_response)
return (download_url_to_image_tensor(image_url),)
NODE_CLASS_MAPPINGS = {
"RunwayFirstLastFrameNode": RunwayFirstLastFrameNode,
"RunwayImageToVideoNodeGen3a": RunwayImageToVideoNodeGen3a,
"RunwayImageToVideoNodeGen4": RunwayImageToVideoNodeGen4,
"RunwayTextToImageNode": RunwayTextToImageNode,
}
NODE_DISPLAY_NAME_MAPPINGS = {
"RunwayFirstLastFrameNode": "Runway First-Last-Frame to Video",
"RunwayImageToVideoNodeGen3a": "Runway Image to Video (Gen3a Turbo)",
"RunwayImageToVideoNodeGen4": "Runway Image to Video (Gen4 Turbo)",
"RunwayTextToImageNode": "Runway Text to Image",
}

574
comfy_api_nodes/nodes_tripo.py Normal file
View File

@ -0,0 +1,574 @@
import os
from folder_paths import get_output_directory
from comfy_api_nodes.mapper_utils import model_field_to_node_input
from comfy.comfy_types.node_typing import IO
from comfy_api_nodes.apis import (
TripoOrientation,
TripoModelVersion,
)
from comfy_api_nodes.apis.tripo_api import (
TripoTaskType,
TripoStyle,
TripoFileReference,
TripoFileEmptyReference,
TripoUrlReference,
TripoTaskResponse,
TripoTaskStatus,
TripoTextToModelRequest,
TripoImageToModelRequest,
TripoMultiviewToModelRequest,
TripoTextureModelRequest,
TripoRefineModelRequest,
TripoAnimateRigRequest,
TripoAnimateRetargetRequest,
TripoConvertModelRequest,
)
from comfy_api_nodes.apis.client import (
ApiEndpoint,
HttpMethod,
SynchronousOperation,
PollingOperation,
EmptyRequest,
)
from comfy_api_nodes.apinode_utils import (
upload_images_to_comfyapi,
download_url_to_bytesio,
)
def upload_image_to_tripo(image, **kwargs):
urls = upload_images_to_comfyapi(image, max_images=1, auth_kwargs=kwargs)
return TripoFileReference(TripoUrlReference(url=urls[0], type="jpeg"))
def get_model_url_from_response(response: TripoTaskResponse) -> str:
if response.data is not None:
for key in ["pbr_model", "model", "base_model"]:
if getattr(response.data.output, key, None) is not None:
return getattr(response.data.output, key)
raise RuntimeError(f"Failed to get model url from response: {response}")
def poll_until_finished(
kwargs: dict[str, str],
response: TripoTaskResponse,
) -> tuple[str, str]:
"""Polls the Tripo API endpoint until the task reaches a terminal state, then returns the response."""
if response.code != 0:
raise RuntimeError(f"Failed to generate mesh: {response.error}")
task_id = response.data.task_id
response_poll = PollingOperation(
poll_endpoint=ApiEndpoint(
path=f"/proxy/tripo/v2/openapi/task/{task_id}",
method=HttpMethod.GET,
request_model=EmptyRequest,
response_model=TripoTaskResponse,
),
completed_statuses=[TripoTaskStatus.SUCCESS],
failed_statuses=[
TripoTaskStatus.FAILED,
TripoTaskStatus.CANCELLED,
TripoTaskStatus.UNKNOWN,
TripoTaskStatus.BANNED,
TripoTaskStatus.EXPIRED,
],
status_extractor=lambda x: x.data.status,
auth_kwargs=kwargs,
node_id=kwargs["unique_id"],
result_url_extractor=get_model_url_from_response,
progress_extractor=lambda x: x.data.progress,
).execute()
if response_poll.data.status == TripoTaskStatus.SUCCESS:
url = get_model_url_from_response(response_poll)
bytesio = download_url_to_bytesio(url)
# Save the downloaded model file
model_file = f"tripo_model_{task_id}.glb"
with open(os.path.join(get_output_directory(), model_file), "wb") as f:
f.write(bytesio.getvalue())
return model_file, task_id
raise RuntimeError(f"Failed to generate mesh: {response_poll}")
class TripoTextToModelNode:
"""
Generates 3D models synchronously based on a text prompt using Tripo's API.
"""
AVERAGE_DURATION = 80
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"prompt": ("STRING", {"multiline": True}),
},
"optional": {
"negative_prompt": ("STRING", {"multiline": True}),
"model_version": model_field_to_node_input(IO.COMBO, TripoTextToModelRequest, "model_version", enum_type=TripoModelVersion),
"style": model_field_to_node_input(IO.COMBO, TripoTextToModelRequest, "style", enum_type=TripoStyle, default="None"),
"texture": ("BOOLEAN", {"default": True}),
"pbr": ("BOOLEAN", {"default": True}),
"image_seed": ("INT", {"default": 42}),
"model_seed": ("INT", {"default": 42}),
"texture_seed": ("INT", {"default": 42}),
"texture_quality": (["standard", "detailed"], {"default": "standard"}),
"face_limit": ("INT", {"min": -1, "max": 500000, "default": -1}),
"quad": ("BOOLEAN", {"default": False})
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = ("STRING", "MODEL_TASK_ID",)
RETURN_NAMES = ("model_file", "model task_id")
FUNCTION = "generate_mesh"
CATEGORY = "api node/3d/Tripo"
API_NODE = True
OUTPUT_NODE = True
def generate_mesh(self, prompt, negative_prompt=None, model_version=None, style=None, texture=None, pbr=None, image_seed=None, model_seed=None, texture_seed=None, texture_quality=None, face_limit=None, quad=None, **kwargs):
style_enum = None if style == "None" else style
if not prompt:
raise RuntimeError("Prompt is required")
response = SynchronousOperation(
endpoint=ApiEndpoint(
path="/proxy/tripo/v2/openapi/task",
method=HttpMethod.POST,
request_model=TripoTextToModelRequest,
response_model=TripoTaskResponse,
),
request=TripoTextToModelRequest(
type=TripoTaskType.TEXT_TO_MODEL,
prompt=prompt,
negative_prompt=negative_prompt if negative_prompt else None,
model_version=model_version,
style=style_enum,
texture=texture,
pbr=pbr,
image_seed=image_seed,
model_seed=model_seed,
texture_seed=texture_seed,
texture_quality=texture_quality,
face_limit=face_limit,
auto_size=True,
quad=quad
),
auth_kwargs=kwargs,
).execute()
return poll_until_finished(kwargs, response)
class TripoImageToModelNode:
"""
Generates 3D models synchronously based on a single image using Tripo's API.
"""
AVERAGE_DURATION = 80
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"image": ("IMAGE",),
},
"optional": {
"model_version": model_field_to_node_input(IO.COMBO, TripoImageToModelRequest, "model_version", enum_type=TripoModelVersion),
"style": model_field_to_node_input(IO.COMBO, TripoTextToModelRequest, "style", enum_type=TripoStyle, default="None"),
"texture": ("BOOLEAN", {"default": True}),
"pbr": ("BOOLEAN", {"default": True}),
"model_seed": ("INT", {"default": 42}),
"orientation": model_field_to_node_input(IO.COMBO, TripoImageToModelRequest, "orientation", enum_type=TripoOrientation),
"texture_seed": ("INT", {"default": 42}),
"texture_quality": (["standard", "detailed"], {"default": "standard"}),
"texture_alignment": (["original_image", "geometry"], {"default": "original_image"}),
"face_limit": ("INT", {"min": -1, "max": 500000, "default": -1}),
"quad": ("BOOLEAN", {"default": False})
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = ("STRING", "MODEL_TASK_ID",)
RETURN_NAMES = ("model_file", "model task_id")
FUNCTION = "generate_mesh"
CATEGORY = "api node/3d/Tripo"
API_NODE = True
OUTPUT_NODE = True
def generate_mesh(self, image, model_version=None, style=None, texture=None, pbr=None, model_seed=None, orientation=None, texture_alignment=None, texture_seed=None, texture_quality=None, face_limit=None, quad=None, **kwargs):
style_enum = None if style == "None" else style
if image is None:
raise RuntimeError("Image is required")
tripo_file = upload_image_to_tripo(image, **kwargs)
response = SynchronousOperation(
endpoint=ApiEndpoint(
path="/proxy/tripo/v2/openapi/task",
method=HttpMethod.POST,
request_model=TripoImageToModelRequest,
response_model=TripoTaskResponse,
),
request=TripoImageToModelRequest(
type=TripoTaskType.IMAGE_TO_MODEL,
file=tripo_file,
model_version=model_version,
style=style_enum,
texture=texture,
pbr=pbr,
model_seed=model_seed,
orientation=orientation,
texture_alignment=texture_alignment,
texture_seed=texture_seed,
texture_quality=texture_quality,
face_limit=face_limit,
auto_size=True,
quad=quad
),
auth_kwargs=kwargs,
).execute()
return poll_until_finished(kwargs, response)
class TripoMultiviewToModelNode:
"""
Generates 3D models synchronously based on up to four images (front, left, back, right) using Tripo's API.
"""
AVERAGE_DURATION = 80
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"image": ("IMAGE",),
},
"optional": {
"image_left": ("IMAGE",),
"image_back": ("IMAGE",),
"image_right": ("IMAGE",),
"model_version": model_field_to_node_input(IO.COMBO, TripoMultiviewToModelRequest, "model_version", enum_type=TripoModelVersion),
"orientation": model_field_to_node_input(IO.COMBO, TripoImageToModelRequest, "orientation", enum_type=TripoOrientation),
"texture": ("BOOLEAN", {"default": True}),
"pbr": ("BOOLEAN", {"default": True}),
"model_seed": ("INT", {"default": 42}),
"texture_seed": ("INT", {"default": 42}),
"texture_quality": (["standard", "detailed"], {"default": "standard"}),
"texture_alignment": (["original_image", "geometry"], {"default": "original_image"}),
"face_limit": ("INT", {"min": -1, "max": 500000, "default": -1}),
"quad": ("BOOLEAN", {"default": False})
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = ("STRING", "MODEL_TASK_ID",)
RETURN_NAMES = ("model_file", "model task_id")
FUNCTION = "generate_mesh"
CATEGORY = "api node/3d/Tripo"
API_NODE = True
OUTPUT_NODE = True
def generate_mesh(self, image, image_left=None, image_back=None, image_right=None, model_version=None, orientation=None, texture=None, pbr=None, model_seed=None, texture_seed=None, texture_quality=None, texture_alignment=None, face_limit=None, quad=None, **kwargs):
if image is None:
raise RuntimeError("front image for multiview is required")
images = []
image_dict = {
"image": image,
"image_left": image_left,
"image_back": image_back,
"image_right": image_right
}
if image_left is None and image_back is None and image_right is None:
raise RuntimeError("At least one of left, back, or right image must be provided for multiview")
for image_name in ["image", "image_left", "image_back", "image_right"]:
image_ = image_dict[image_name]
if image_ is not None:
tripo_file = upload_image_to_tripo(image_, **kwargs)
images.append(tripo_file)
else:
images.append(TripoFileEmptyReference())
response = SynchronousOperation(
endpoint=ApiEndpoint(
path="/proxy/tripo/v2/openapi/task",
method=HttpMethod.POST,
request_model=TripoMultiviewToModelRequest,
response_model=TripoTaskResponse,
),
request=TripoMultiviewToModelRequest(
type=TripoTaskType.MULTIVIEW_TO_MODEL,
files=images,
model_version=model_version,
orientation=orientation,
texture=texture,
pbr=pbr,
model_seed=model_seed,
texture_seed=texture_seed,
texture_quality=texture_quality,
texture_alignment=texture_alignment,
face_limit=face_limit,
quad=quad,
),
auth_kwargs=kwargs,
).execute()
return poll_until_finished(kwargs, response)
class TripoTextureNode:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"model_task_id": ("MODEL_TASK_ID",),
},
"optional": {
"texture": ("BOOLEAN", {"default": True}),
"pbr": ("BOOLEAN", {"default": True}),
"texture_seed": ("INT", {"default": 42}),
"texture_quality": (["standard", "detailed"], {"default": "standard"}),
"texture_alignment": (["original_image", "geometry"], {"default": "original_image"}),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = ("STRING", "MODEL_TASK_ID",)
RETURN_NAMES = ("model_file", "model task_id")
FUNCTION = "generate_mesh"
CATEGORY = "api node/3d/Tripo"
API_NODE = True
OUTPUT_NODE = True
AVERAGE_DURATION = 80
def generate_mesh(self, model_task_id, texture=None, pbr=None, texture_seed=None, texture_quality=None, texture_alignment=None, **kwargs):
response = SynchronousOperation(
endpoint=ApiEndpoint(
path="/proxy/tripo/v2/openapi/task",
method=HttpMethod.POST,
request_model=TripoTextureModelRequest,
response_model=TripoTaskResponse,
),
request=TripoTextureModelRequest(
original_model_task_id=model_task_id,
texture=texture,
pbr=pbr,
texture_seed=texture_seed,
texture_quality=texture_quality,
texture_alignment=texture_alignment
),
auth_kwargs=kwargs,
).execute()
return poll_until_finished(kwargs, response)
class TripoRefineNode:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"model_task_id": ("MODEL_TASK_ID", {
"tooltip": "Must be a v1.4 Tripo model"
}),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
DESCRIPTION = "Refine a draft model created by v1.4 Tripo models only."
RETURN_TYPES = ("STRING", "MODEL_TASK_ID",)
RETURN_NAMES = ("model_file", "model task_id")
FUNCTION = "generate_mesh"
CATEGORY = "api node/3d/Tripo"
API_NODE = True
OUTPUT_NODE = True
AVERAGE_DURATION = 240
def generate_mesh(self, model_task_id, **kwargs):
response = SynchronousOperation(
endpoint=ApiEndpoint(
path="/proxy/tripo/v2/openapi/task",
method=HttpMethod.POST,
request_model=TripoRefineModelRequest,
response_model=TripoTaskResponse,
),
request=TripoRefineModelRequest(
draft_model_task_id=model_task_id
),
auth_kwargs=kwargs,
).execute()
return poll_until_finished(kwargs, response)
class TripoRigNode:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"original_model_task_id": ("MODEL_TASK_ID",),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = ("STRING", "RIG_TASK_ID")
RETURN_NAMES = ("model_file", "rig task_id")
FUNCTION = "generate_mesh"
CATEGORY = "api node/3d/Tripo"
API_NODE = True
OUTPUT_NODE = True
AVERAGE_DURATION = 180
def generate_mesh(self, original_model_task_id, **kwargs):
response = SynchronousOperation(
endpoint=ApiEndpoint(
path="/proxy/tripo/v2/openapi/task",
method=HttpMethod.POST,
request_model=TripoAnimateRigRequest,
response_model=TripoTaskResponse,
),
request=TripoAnimateRigRequest(
original_model_task_id=original_model_task_id,
out_format="glb",
spec="tripo"
),
auth_kwargs=kwargs,
).execute()
return poll_until_finished(kwargs, response)
class TripoRetargetNode:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"original_model_task_id": ("RIG_TASK_ID",),
"animation": ([
"preset:idle",
"preset:walk",
"preset:climb",
"preset:jump",
"preset:slash",
"preset:shoot",
"preset:hurt",
"preset:fall",
"preset:turn",
],),
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
RETURN_TYPES = ("STRING", "RETARGET_TASK_ID")
RETURN_NAMES = ("model_file", "retarget task_id")
FUNCTION = "generate_mesh"
CATEGORY = "api node/3d/Tripo"
API_NODE = True
OUTPUT_NODE = True
AVERAGE_DURATION = 30
def generate_mesh(self, animation, original_model_task_id, **kwargs):
response = SynchronousOperation(
endpoint=ApiEndpoint(
path="/proxy/tripo/v2/openapi/task",
method=HttpMethod.POST,
request_model=TripoAnimateRetargetRequest,
response_model=TripoTaskResponse,
),
request=TripoAnimateRetargetRequest(
original_model_task_id=original_model_task_id,
animation=animation,
out_format="glb",
bake_animation=True
),
auth_kwargs=kwargs,
).execute()
return poll_until_finished(kwargs, response)
class TripoConversionNode:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"original_model_task_id": ("MODEL_TASK_ID,RIG_TASK_ID,RETARGET_TASK_ID",),
"format": (["GLTF", "USDZ", "FBX", "OBJ", "STL", "3MF"],),
},
"optional": {
"quad": ("BOOLEAN", {"default": False}),
"face_limit": ("INT", {"min": -1, "max": 500000, "default": -1}),
"texture_size": ("INT", {"min": 128, "max": 4096, "default": 4096}),
"texture_format": (["BMP", "DPX", "HDR", "JPEG", "OPEN_EXR", "PNG", "TARGA", "TIFF", "WEBP"], {"default": "JPEG"})
},
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@classmethod
def VALIDATE_INPUTS(cls, input_types):
# The min and max of input1 and input2 are still validated because
# we didn't take `input1` or `input2` as arguments
if input_types["original_model_task_id"] not in ("MODEL_TASK_ID", "RIG_TASK_ID", "RETARGET_TASK_ID"):
return "original_model_task_id must be MODEL_TASK_ID, RIG_TASK_ID or RETARGET_TASK_ID type"
return True
RETURN_TYPES = ()
FUNCTION = "generate_mesh"
CATEGORY = "api node/3d/Tripo"
API_NODE = True
OUTPUT_NODE = True
AVERAGE_DURATION = 30
def generate_mesh(self, original_model_task_id, format, quad, face_limit, texture_size, texture_format, **kwargs):
if not original_model_task_id:
raise RuntimeError("original_model_task_id is required")
response = SynchronousOperation(
endpoint=ApiEndpoint(
path="/proxy/tripo/v2/openapi/task",
method=HttpMethod.POST,
request_model=TripoConvertModelRequest,
response_model=TripoTaskResponse,
),
request=TripoConvertModelRequest(
original_model_task_id=original_model_task_id,
format=format,
quad=quad if quad else None,
face_limit=face_limit if face_limit != -1 else None,
texture_size=texture_size if texture_size != 4096 else None,
texture_format=texture_format if texture_format != "JPEG" else None
),
auth_kwargs=kwargs,
).execute()
return poll_until_finished(kwargs, response)
NODE_CLASS_MAPPINGS = {
"TripoTextToModelNode": TripoTextToModelNode,
"TripoImageToModelNode": TripoImageToModelNode,
"TripoMultiviewToModelNode": TripoMultiviewToModelNode,
"TripoTextureNode": TripoTextureNode,
"TripoRefineNode": TripoRefineNode,
"TripoRigNode": TripoRigNode,
"TripoRetargetNode": TripoRetargetNode,
"TripoConversionNode": TripoConversionNode,
}
NODE_DISPLAY_NAME_MAPPINGS = {
"TripoTextToModelNode": "Tripo: Text to Model",
"TripoImageToModelNode": "Tripo: Image to Model",
"TripoMultiviewToModelNode": "Tripo: Multiview to Model",
"TripoTextureNode": "Tripo: Texture model",
"TripoRefineNode": "Tripo: Refine Draft model",
"TripoRigNode": "Tripo: Rig model",
"TripoRetargetNode": "Tripo: Retarget rigged model",
"TripoConversionNode": "Tripo: Convert model",
}

26
comfy_api_nodes/nodes_veo2.py
View File

@ -3,6 +3,7 @@ import logging
import base64
import requests
import torch
from typing import Optional
from comfy.comfy_types.node_typing import IO, ComfyNodeABC
from comfy_api.input_impl.video_types import VideoFromFile
@ -24,6 +25,8 @@ from comfy_api_nodes.apinode_utils import (
tensor_to_base64_string
)
AVERAGE_DURATION_VIDEO_GEN = 32
def convert_image_to_base64(image: torch.Tensor):
if image is None:
return None
@ -31,6 +34,22 @@ def convert_image_to_base64(image: torch.Tensor):
scaled_image = downscale_image_tensor(image, total_pixels=2048*2048)
return tensor_to_base64_string(scaled_image)
def get_video_url_from_response(poll_response: Veo2GenVidPollResponse) -> Optional[str]:
if (
poll_response.response
and hasattr(poll_response.response, "videos")
and poll_response.response.videos
and len(poll_response.response.videos) > 0
):
video = poll_response.response.videos[0]
else:
return None
if hasattr(video, "gcsUri") and video.gcsUri:
return str(video.gcsUri)
return None
class VeoVideoGenerationNode(ComfyNodeABC):
"""
Generates videos from text prompts using Google's Veo API.
@ -115,6 +134,7 @@ class VeoVideoGenerationNode(ComfyNodeABC):
"hidden": {
"auth_token": "AUTH_TOKEN_COMFY_ORG",
"comfy_api_key": "API_KEY_COMFY_ORG",
"unique_id": "UNIQUE_ID",
},
}
@ -134,6 +154,7 @@ class VeoVideoGenerationNode(ComfyNodeABC):
person_generation="ALLOW",
seed=0,
image=None,
unique_id: Optional[str] = None,
**kwargs,
):
# Prepare the instances for the request
@ -215,7 +236,10 @@ class VeoVideoGenerationNode(ComfyNodeABC):
operationName=operation_name
),
auth_kwargs=kwargs,
poll_interval=5.0
poll_interval=5.0,
result_url_extractor=get_video_url_from_response,
node_id=unique_id,
estimated_duration=AVERAGE_DURATION_VIDEO_GEN,
)
# Execute the polling operation

0
comfy_api_nodes/util/__init__.py Normal file
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100
comfy_api_nodes/util/validation_utils.py Normal file
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@ -0,0 +1,100 @@
import logging
from typing import Optional
import torch
from comfy_api.input.video_types import VideoInput
def get_image_dimensions(image: torch.Tensor) -> tuple[int, int]:
if len(image.shape) == 4:
return image.shape[1], image.shape[2]
elif len(image.shape) == 3:
return image.shape[0], image.shape[1]
else:
raise ValueError("Invalid image tensor shape.")
def validate_image_dimensions(
image: torch.Tensor,
min_width: Optional[int] = None,
max_width: Optional[int] = None,
min_height: Optional[int] = None,
max_height: Optional[int] = None,
):
height, width = get_image_dimensions(image)
if min_width is not None and width < min_width:
raise ValueError(f"Image width must be at least {min_width}px, got {width}px")
if max_width is not None and width > max_width:
raise ValueError(f"Image width must be at most {max_width}px, got {width}px")
if min_height is not None and height < min_height:
raise ValueError(
f"Image height must be at least {min_height}px, got {height}px"
)
if max_height is not None and height > max_height:
raise ValueError(f"Image height must be at most {max_height}px, got {height}px")
def validate_image_aspect_ratio(
image: torch.Tensor,
min_aspect_ratio: Optional[float] = None,
max_aspect_ratio: Optional[float] = None,
):
width, height = get_image_dimensions(image)
aspect_ratio = width / height
if min_aspect_ratio is not None and aspect_ratio < min_aspect_ratio:
raise ValueError(
f"Image aspect ratio must be at least {min_aspect_ratio}, got {aspect_ratio}"
)
if max_aspect_ratio is not None and aspect_ratio > max_aspect_ratio:
raise ValueError(
f"Image aspect ratio must be at most {max_aspect_ratio}, got {aspect_ratio}"
)
def validate_video_dimensions(
video: VideoInput,
min_width: Optional[int] = None,
max_width: Optional[int] = None,
min_height: Optional[int] = None,
max_height: Optional[int] = None,
):
try:
width, height = video.get_dimensions()
except Exception as e:
logging.error("Error getting dimensions of video: %s", e)
return
if min_width is not None and width < min_width:
raise ValueError(f"Video width must be at least {min_width}px, got {width}px")
if max_width is not None and width > max_width:
raise ValueError(f"Video width must be at most {max_width}px, got {width}px")
if min_height is not None and height < min_height:
raise ValueError(
f"Video height must be at least {min_height}px, got {height}px"
)
if max_height is not None and height > max_height:
raise ValueError(f"Video height must be at most {max_height}px, got {height}px")
def validate_video_duration(
video: VideoInput,
min_duration: Optional[float] = None,
max_duration: Optional[float] = None,
):
try:
duration = video.get_duration()
except Exception as e:
logging.error("Error getting duration of video: %s", e)
return
epsilon = 0.0001
if min_duration is not None and min_duration - epsilon > duration:
raise ValueError(
f"Video duration must be at least {min_duration}s, got {duration}s"
)
if max_duration is not None and duration > max_duration + epsilon:
raise ValueError(
f"Video duration must be at most {max_duration}s, got {duration}s"
)

97
comfy_config/config_parser.py Normal file
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@ -0,0 +1,97 @@
import os
from pathlib import Path
from typing import Optional
from pydantic_settings import PydanticBaseSettingsSource, TomlConfigSettingsSource
from comfy_config.types import (
ComfyConfig,
ProjectConfig,
PyProjectConfig,
PyProjectSettings
)
"""
Extract configuration from a custom node directory's pyproject.toml file or a Python file.
This function reads and parses the pyproject.toml file in the specified directory
to extract project and ComfyUI-specific configuration information. If no
pyproject.toml file is found, it creates a minimal configuration using the
folder name as the project name. If a Python file is provided, it uses the
file name (without extension) as the project name.
Args:
path (str): Path to the directory containing the pyproject.toml file, or
path to a .py file. If pyproject.toml doesn't exist in a directory,
the folder name will be used as the default project name. If a .py
file is provided, the filename (without .py extension) will be used
as the project name.
Returns:
Optional[PyProjectConfig]: A PyProjectConfig object containing:
- project: Basic project information (name, version, dependencies, etc.)
- tool_comfy: ComfyUI-specific configuration (publisher_id, models, etc.)
Returns None if configuration extraction fails or if the provided file
is not a Python file.
Notes:
- If pyproject.toml is missing in a directory, creates a default config with folder name
- If a .py file is provided, creates a default config with filename (without extension)
- Returns None for non-Python files
Example:
>>> from comfy_config import config_parser
>>> # For directory
>>> custom_node_dir = os.path.dirname(os.path.realpath(__file__))
>>> project_config = config_parser.extract_node_configuration(custom_node_dir)
>>> print(project_config.project.name) # "my_custom_node" or name from pyproject.toml
>>>
>>> # For single-file Python node file
>>> py_file_path = os.path.realpath(__file__) # "/path/to/my_node.py"
>>> project_config = config_parser.extract_node_configuration(py_file_path)
>>> print(project_config.project.name) # "my_node"
"""
def extract_node_configuration(path) -> Optional[PyProjectConfig]:
if os.path.isfile(path):
file_path = Path(path)
if file_path.suffix.lower() != '.py':
return None
project_name = file_path.stem
project = ProjectConfig(name=project_name)
comfy = ComfyConfig()
return PyProjectConfig(project=project, tool_comfy=comfy)
folder_name = os.path.basename(path)
toml_path = Path(path) / "pyproject.toml"
if not toml_path.exists():
project = ProjectConfig(name=folder_name)
comfy = ComfyConfig()
return PyProjectConfig(project=project, tool_comfy=comfy)
raw_settings = load_pyproject_settings(toml_path)
project_data = raw_settings.project
tool_data = raw_settings.tool
comfy_data = tool_data.get("comfy", {}) if tool_data else {}
return PyProjectConfig(project=project_data, tool_comfy=comfy_data)
def load_pyproject_settings(toml_path: Path) -> PyProjectSettings:
class PyProjectLoader(PyProjectSettings):
@classmethod
def settings_customise_sources(
cls,
settings_cls,
init_settings: PydanticBaseSettingsSource,
env_settings: PydanticBaseSettingsSource,
dotenv_settings: PydanticBaseSettingsSource,
file_secret_settings: PydanticBaseSettingsSource,
):
return (TomlConfigSettingsSource(settings_cls, toml_path),)
return PyProjectLoader()

93
comfy_config/types.py Normal file
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@ -0,0 +1,93 @@
from pydantic import BaseModel, Field, field_validator
from pydantic_settings import BaseSettings, SettingsConfigDict
from typing import List, Optional
# IMPORTANT: The type definitions specified in pyproject.toml for custom nodes
# must remain synchronized with the corresponding files in the https://github.com/Comfy-Org/comfy-cli/blob/main/comfy_cli/registry/types.py.
# Any changes to one must be reflected in the other to maintain consistency.
class NodeVersion(BaseModel):
changelog: str
dependencies: List[str]
deprecated: bool
id: str
version: str
download_url: str
class Node(BaseModel):
id: str
name: str
description: str
author: Optional[str] = None
license: Optional[str] = None
icon: Optional[str] = None
repository: Optional[str] = None
tags: List[str] = Field(default_factory=list)
latest_version: Optional[NodeVersion] = None
class PublishNodeVersionResponse(BaseModel):
node_version: NodeVersion
signedUrl: str
class URLs(BaseModel):
homepage: str = Field(default="", alias="Homepage")
documentation: str = Field(default="", alias="Documentation")
repository: str = Field(default="", alias="Repository")
issues: str = Field(default="", alias="Issues")
class Model(BaseModel):
location: str
model_url: str
class ComfyConfig(BaseModel):
publisher_id: str = Field(default="", alias="PublisherId")
display_name: str = Field(default="", alias="DisplayName")
icon: str = Field(default="", alias="Icon")
models: List[Model] = Field(default_factory=list, alias="Models")
includes: List[str] = Field(default_factory=list)
web: Optional[str] = None
class License(BaseModel):
file: str = ""
text: str = ""
class ProjectConfig(BaseModel):
name: str = ""
description: str = ""
version: str = "1.0.0"
requires_python: str = Field(default=">= 3.9", alias="requires-python")
dependencies: List[str] = Field(default_factory=list)
license: License = Field(default_factory=License)
urls: URLs = Field(default_factory=URLs)
@field_validator('license', mode='before')
@classmethod
def validate_license(cls, v):
if isinstance(v, str):
return License(text=v)
elif isinstance(v, dict):
return License(**v)
elif isinstance(v, License):
return v
else:
return License()
class PyProjectConfig(BaseModel):
project: ProjectConfig = Field(default_factory=ProjectConfig)
tool_comfy: ComfyConfig = Field(default_factory=ComfyConfig)
class PyProjectSettings(BaseSettings):
project: dict = Field(default_factory=dict)
tool: dict = Field(default_factory=dict)
model_config = SettingsConfigDict(extra='allow')

76
comfy_extras/nodes_apg.py Normal file
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@ -0,0 +1,76 @@
import torch
def project(v0, v1):
v1 = torch.nn.functional.normalize(v1, dim=[-1, -2, -3])
v0_parallel = (v0 * v1).sum(dim=[-1, -2, -3], keepdim=True) * v1
v0_orthogonal = v0 - v0_parallel
return v0_parallel, v0_orthogonal
class APG:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"model": ("MODEL",),
"eta": ("FLOAT", {"default": 1.0, "min": -10.0, "max": 10.0, "step": 0.01, "tooltip": "Controls the scale of the parallel guidance vector. Default CFG behavior at a setting of 1."}),
"norm_threshold": ("FLOAT", {"default": 5.0, "min": 0.0, "max": 50.0, "step": 0.1, "tooltip": "Normalize guidance vector to this value, normalization disable at a setting of 0."}),
"momentum": ("FLOAT", {"default": 0.0, "min": -5.0, "max": 1.0, "step": 0.01, "tooltip":"Controls a running average of guidance during diffusion, disabled at a setting of 0."}),
}
}
RETURN_TYPES = ("MODEL",)
FUNCTION = "patch"
CATEGORY = "sampling/custom_sampling"
def patch(self, model, eta, norm_threshold, momentum):
running_avg = 0
prev_sigma = None
def pre_cfg_function(args):
nonlocal running_avg, prev_sigma
if len(args["conds_out"]) == 1: return args["conds_out"]
cond = args["conds_out"][0]
uncond = args["conds_out"][1]
sigma = args["sigma"][0]
cond_scale = args["cond_scale"]
if prev_sigma is not None and sigma > prev_sigma:
running_avg = 0
prev_sigma = sigma
guidance = cond - uncond
if momentum != 0:
if not torch.is_tensor(running_avg):
running_avg = guidance
else:
running_avg = momentum * running_avg + guidance
guidance = running_avg
if norm_threshold > 0:
guidance_norm = guidance.norm(p=2, dim=[-1, -2, -3], keepdim=True)
scale = torch.minimum(
torch.ones_like(guidance_norm),
norm_threshold / guidance_norm
)
guidance = guidance * scale
guidance_parallel, guidance_orthogonal = project(guidance, cond)
modified_guidance = guidance_orthogonal + eta * guidance_parallel
modified_cond = (uncond + modified_guidance) + (cond - uncond) / cond_scale
return [modified_cond, uncond] + args["conds_out"][2:]
m = model.clone()
m.set_model_sampler_pre_cfg_function(pre_cfg_function)
return (m,)
NODE_CLASS_MAPPINGS = {
"APG": APG,
}
NODE_DISPLAY_NAME_MAPPINGS = {
"APG": "Adaptive Projected Guidance",
}

218
comfy_extras/nodes_camera_trajectory.py Normal file
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@ -0,0 +1,218 @@
import nodes
import torch
import numpy as np
from einops import rearrange
import comfy.model_management
MAX_RESOLUTION = nodes.MAX_RESOLUTION
CAMERA_DICT = {
"base_T_norm": 1.5,
"base_angle": np.pi/3,
"Static": { "angle":[0., 0., 0.], "T":[0., 0., 0.]},
"Pan Up": { "angle":[0., 0., 0.], "T":[0., -1., 0.]},
"Pan Down": { "angle":[0., 0., 0.], "T":[0.,1.,0.]},
"Pan Left": { "angle":[0., 0., 0.], "T":[-1.,0.,0.]},
"Pan Right": { "angle":[0., 0., 0.], "T": [1.,0.,0.]},
"Zoom In": { "angle":[0., 0., 0.], "T": [0.,0.,2.]},
"Zoom Out": { "angle":[0., 0., 0.], "T": [0.,0.,-2.]},
"Anti Clockwise (ACW)": { "angle": [0., 0., -1.], "T":[0., 0., 0.]},
"ClockWise (CW)": { "angle": [0., 0., 1.], "T":[0., 0., 0.]},
}
def process_pose_params(cam_params, width=672, height=384, original_pose_width=1280, original_pose_height=720, device='cpu'):
def get_relative_pose(cam_params):
"""Copied from https://github.com/hehao13/CameraCtrl/blob/main/inference.py
"""
abs_w2cs = [cam_param.w2c_mat for cam_param in cam_params]
abs_c2ws = [cam_param.c2w_mat for cam_param in cam_params]
cam_to_origin = 0
target_cam_c2w = np.array([
[1, 0, 0, 0],
[0, 1, 0, -cam_to_origin],
[0, 0, 1, 0],
[0, 0, 0, 1]
])
abs2rel = target_cam_c2w @ abs_w2cs[0]
ret_poses = [target_cam_c2w, ] + [abs2rel @ abs_c2w for abs_c2w in abs_c2ws[1:]]
ret_poses = np.array(ret_poses, dtype=np.float32)
return ret_poses
"""Modified from https://github.com/hehao13/CameraCtrl/blob/main/inference.py
"""
cam_params = [Camera(cam_param) for cam_param in cam_params]
sample_wh_ratio = width / height
pose_wh_ratio = original_pose_width / original_pose_height # Assuming placeholder ratios, change as needed
if pose_wh_ratio > sample_wh_ratio:
resized_ori_w = height * pose_wh_ratio
for cam_param in cam_params:
cam_param.fx = resized_ori_w * cam_param.fx / width
else:
resized_ori_h = width / pose_wh_ratio
for cam_param in cam_params:
cam_param.fy = resized_ori_h * cam_param.fy / height
intrinsic = np.asarray([[cam_param.fx * width,
cam_param.fy * height,
cam_param.cx * width,
cam_param.cy * height]
for cam_param in cam_params], dtype=np.float32)
K = torch.as_tensor(intrinsic)[None] # [1, 1, 4]
c2ws = get_relative_pose(cam_params) # Assuming this function is defined elsewhere
c2ws = torch.as_tensor(c2ws)[None] # [1, n_frame, 4, 4]
plucker_embedding = ray_condition(K, c2ws, height, width, device=device)[0].permute(0, 3, 1, 2).contiguous() # V, 6, H, W
plucker_embedding = plucker_embedding[None]
plucker_embedding = rearrange(plucker_embedding, "b f c h w -> b f h w c")[0]
return plucker_embedding
class Camera(object):
"""Copied from https://github.com/hehao13/CameraCtrl/blob/main/inference.py
"""
def __init__(self, entry):
fx, fy, cx, cy = entry[1:5]
self.fx = fx
self.fy = fy
self.cx = cx
self.cy = cy
c2w_mat = np.array(entry[7:]).reshape(4, 4)
self.c2w_mat = c2w_mat
self.w2c_mat = np.linalg.inv(c2w_mat)
def ray_condition(K, c2w, H, W, device):
"""Copied from https://github.com/hehao13/CameraCtrl/blob/main/inference.py
"""
# c2w: B, V, 4, 4
# K: B, V, 4
B = K.shape[0]
j, i = torch.meshgrid(
torch.linspace(0, H - 1, H, device=device, dtype=c2w.dtype),
torch.linspace(0, W - 1, W, device=device, dtype=c2w.dtype),
indexing='ij'
)
i = i.reshape([1, 1, H * W]).expand([B, 1, H * W]) + 0.5 # [B, HxW]
j = j.reshape([1, 1, H * W]).expand([B, 1, H * W]) + 0.5 # [B, HxW]
fx, fy, cx, cy = K.chunk(4, dim=-1) # B,V, 1
zs = torch.ones_like(i) # [B, HxW]
xs = (i - cx) / fx * zs
ys = (j - cy) / fy * zs
zs = zs.expand_as(ys)
directions = torch.stack((xs, ys, zs), dim=-1) # B, V, HW, 3
directions = directions / directions.norm(dim=-1, keepdim=True) # B, V, HW, 3
rays_d = directions @ c2w[..., :3, :3].transpose(-1, -2) # B, V, 3, HW
rays_o = c2w[..., :3, 3] # B, V, 3
rays_o = rays_o[:, :, None].expand_as(rays_d) # B, V, 3, HW
# c2w @ dirctions
rays_dxo = torch.cross(rays_o, rays_d)
plucker = torch.cat([rays_dxo, rays_d], dim=-1)
plucker = plucker.reshape(B, c2w.shape[1], H, W, 6) # B, V, H, W, 6
# plucker = plucker.permute(0, 1, 4, 2, 3)
return plucker
def get_camera_motion(angle, T, speed, n=81):
def compute_R_form_rad_angle(angles):
theta_x, theta_y, theta_z = angles
Rx = np.array([[1, 0, 0],
[0, np.cos(theta_x), -np.sin(theta_x)],
[0, np.sin(theta_x), np.cos(theta_x)]])
Ry = np.array([[np.cos(theta_y), 0, np.sin(theta_y)],
[0, 1, 0],
[-np.sin(theta_y), 0, np.cos(theta_y)]])
Rz = np.array([[np.cos(theta_z), -np.sin(theta_z), 0],
[np.sin(theta_z), np.cos(theta_z), 0],
[0, 0, 1]])
R = np.dot(Rz, np.dot(Ry, Rx))
return R
RT = []
for i in range(n):
_angle = (i/n)*speed*(CAMERA_DICT["base_angle"])*angle
R = compute_R_form_rad_angle(_angle)
_T=(i/n)*speed*(CAMERA_DICT["base_T_norm"])*(T.reshape(3,1))
_RT = np.concatenate([R,_T], axis=1)
RT.append(_RT)
RT = np.stack(RT)
return RT
class WanCameraEmbedding:
@classmethod
def INPUT_TYPES(cls):
return {
"required": {
"camera_pose":(["Static","Pan Up","Pan Down","Pan Left","Pan Right","Zoom In","Zoom Out","Anti Clockwise (ACW)", "ClockWise (CW)"],{"default":"Static"}),
"width": ("INT", {"default": 832, "min": 16, "max": MAX_RESOLUTION, "step": 16}),
"height": ("INT", {"default": 480, "min": 16, "max": MAX_RESOLUTION, "step": 16}),
"length": ("INT", {"default": 81, "min": 1, "max": MAX_RESOLUTION, "step": 4}),
},
"optional":{
"speed":("FLOAT",{"default":1.0, "min": 0, "max": 10.0, "step": 0.1}),
"fx":("FLOAT",{"default":0.5, "min": 0, "max": 1, "step": 0.000000001}),
"fy":("FLOAT",{"default":0.5, "min": 0, "max": 1, "step": 0.000000001}),
"cx":("FLOAT",{"default":0.5, "min": 0, "max": 1, "step": 0.01}),
"cy":("FLOAT",{"default":0.5, "min": 0, "max": 1, "step": 0.01}),
}
}
RETURN_TYPES = ("WAN_CAMERA_EMBEDDING","INT","INT","INT")
RETURN_NAMES = ("camera_embedding","width","height","length")
FUNCTION = "run"
CATEGORY = "camera"
def run(self, camera_pose, width, height, length, speed=1.0, fx=0.5, fy=0.5, cx=0.5, cy=0.5):
"""
Use Camera trajectory as extrinsic parameters to calculate Plücker embeddings (Sitzmannet al., 2021)
Adapted from https://github.com/aigc-apps/VideoX-Fun/blob/main/comfyui/comfyui_nodes.py
"""
motion_list = [camera_pose]
speed = speed
angle = np.array(CAMERA_DICT[motion_list[0]]["angle"])
T = np.array(CAMERA_DICT[motion_list[0]]["T"])
RT = get_camera_motion(angle, T, speed, length)
trajs=[]
for cp in RT.tolist():
traj=[fx,fy,cx,cy,0,0]
traj.extend(cp[0])
traj.extend(cp[1])
traj.extend(cp[2])
traj.extend([0,0,0,1])
trajs.append(traj)
cam_params = np.array([[float(x) for x in pose] for pose in trajs])
cam_params = np.concatenate([np.zeros_like(cam_params[:, :1]), cam_params], 1)
control_camera_video = process_pose_params(cam_params, width=width, height=height)
control_camera_video = control_camera_video.permute([3, 0, 1, 2]).unsqueeze(0).to(device=comfy.model_management.intermediate_device())
control_camera_video = torch.concat(
[
torch.repeat_interleave(control_camera_video[:, :, 0:1], repeats=4, dim=2),
control_camera_video[:, :, 1:]
], dim=2
).transpose(1, 2)
# Reshape, transpose, and view into desired shape
b, f, c, h, w = control_camera_video.shape
control_camera_video = control_camera_video.contiguous().view(b, f // 4, 4, c, h, w).transpose(2, 3)
control_camera_video = control_camera_video.contiguous().view(b, f // 4, c * 4, h, w).transpose(1, 2)
return (control_camera_video, width, height, length)
NODE_CLASS_MAPPINGS = {
"WanCameraEmbedding": WanCameraEmbedding,
}

1
comfy_extras/nodes_cond.py
View File

@ -31,6 +31,7 @@ class T5TokenizerOptions:
}
}
CATEGORY = "_for_testing/conditioning"
RETURN_TYPES = ("CLIP",)
FUNCTION = "set_options"

46
comfy_extras/nodes_cosmos.py
View File

@ -2,6 +2,7 @@ import nodes
import torch
import comfy.model_management
import comfy.utils
import comfy.latent_formats
class EmptyCosmosLatentVideo:
@ -75,8 +76,53 @@ class CosmosImageToVideoLatent:
out_latent["noise_mask"] = mask.repeat((batch_size, ) + (1,) * (mask.ndim - 1))
return (out_latent,)
class CosmosPredict2ImageToVideoLatent:
@classmethod
def INPUT_TYPES(s):
return {"required": {"vae": ("VAE", ),
"width": ("INT", {"default": 848, "min": 16, "max": nodes.MAX_RESOLUTION, "step": 16}),
"height": ("INT", {"default": 480, "min": 16, "max": nodes.MAX_RESOLUTION, "step": 16}),
"length": ("INT", {"default": 93, "min": 1, "max": nodes.MAX_RESOLUTION, "step": 4}),
"batch_size": ("INT", {"default": 1, "min": 1, "max": 4096}),
},
"optional": {"start_image": ("IMAGE", ),
"end_image": ("IMAGE", ),
}}
RETURN_TYPES = ("LATENT",)
FUNCTION = "encode"
CATEGORY = "conditioning/inpaint"
def encode(self, vae, width, height, length, batch_size, start_image=None, end_image=None):
latent = torch.zeros([1, 16, ((length - 1) // 4) + 1, height // 8, width // 8], device=comfy.model_management.intermediate_device())
if start_image is None and end_image is None:
out_latent = {}
out_latent["samples"] = latent
return (out_latent,)
mask = torch.ones([latent.shape[0], 1, ((length - 1) // 4) + 1, latent.shape[-2], latent.shape[-1]], device=comfy.model_management.intermediate_device())
if start_image is not None:
latent_temp = vae_encode_with_padding(vae, start_image, width, height, length, padding=1)
latent[:, :, :latent_temp.shape[-3]] = latent_temp
mask[:, :, :latent_temp.shape[-3]] *= 0.0
if end_image is not None:
latent_temp = vae_encode_with_padding(vae, end_image, width, height, length, padding=0)
latent[:, :, -latent_temp.shape[-3]:] = latent_temp
mask[:, :, -latent_temp.shape[-3]:] *= 0.0
out_latent = {}
latent_format = comfy.latent_formats.Wan21()
latent = latent_format.process_out(latent) * mask + latent * (1.0 - mask)
out_latent["samples"] = latent.repeat((batch_size, ) + (1,) * (latent.ndim - 1))
out_latent["noise_mask"] = mask.repeat((batch_size, ) + (1,) * (mask.ndim - 1))
return (out_latent,)
NODE_CLASS_MAPPINGS = {
"EmptyCosmosLatentVideo": EmptyCosmosLatentVideo,
"CosmosImageToVideoLatent": CosmosImageToVideoLatent,
"CosmosPredict2ImageToVideoLatent": CosmosPredict2ImageToVideoLatent,
}

6
comfy_extras/nodes_hunyuan.py
View File

@ -77,7 +77,7 @@ class HunyuanImageToVideo:
"height": ("INT", {"default": 480, "min": 16, "max": nodes.MAX_RESOLUTION, "step": 16}),
"length": ("INT", {"default": 53, "min": 1, "max": nodes.MAX_RESOLUTION, "step": 4}),
"batch_size": ("INT", {"default": 1, "min": 1, "max": 4096}),
"guidance_type": (["v1 (concat)", "v2 (replace)"], )
"guidance_type": (["v1 (concat)", "v2 (replace)", "custom"], )
},
"optional": {"start_image": ("IMAGE", ),
}}
@ -101,10 +101,12 @@ class HunyuanImageToVideo:
if guidance_type == "v1 (concat)":
cond = {"concat_latent_image": concat_latent_image, "concat_mask": mask}
else:
elif guidance_type == "v2 (replace)":
cond = {'guiding_frame_index': 0}
latent[:, :, :concat_latent_image.shape[2]] = concat_latent_image
out_latent["noise_mask"] = mask
elif guidance_type == "custom":
cond = {"ref_latent": concat_latent_image}
positive = node_helpers.conditioning_set_values(positive, cond)

237
comfy_extras/nodes_images.py
View File

@ -13,8 +13,11 @@ import os
import re
from io import BytesIO
from inspect import cleandoc
import torch
import comfy.utils
from comfy.comfy_types import FileLocator
from comfy.comfy_types import FileLocator, IO
from server import PromptServer
MAX_RESOLUTION = nodes.MAX_RESOLUTION
@ -74,6 +77,24 @@ class ImageFromBatch:
s = s_in[batch_index:batch_index + length].clone()
return (s,)
class ImageAddNoise:
@classmethod
def INPUT_TYPES(s):
return {"required": { "image": ("IMAGE",),
"seed": ("INT", {"default": 0, "min": 0, "max": 0xffffffffffffffff, "control_after_generate": True, "tooltip": "The random seed used for creating the noise."}),
"strength": ("FLOAT", {"default": 0.5, "min": 0.0, "max": 1.0, "step": 0.01}),
}}
RETURN_TYPES = ("IMAGE",)
FUNCTION = "repeat"
CATEGORY = "image"
def repeat(self, image, seed, strength):
generator = torch.manual_seed(seed)
s = torch.clip((image + strength * torch.randn(image.size(), generator=generator, device="cpu").to(image)), min=0.0, max=1.0)
return (s,)
class SaveAnimatedWEBP:
def __init__(self):
self.output_dir = folder_paths.get_output_directory()
@ -210,6 +231,186 @@ class SVG:
all_svgs_list.extend(svg_item.data)
return SVG(all_svgs_list)
class ImageStitch:
"""Upstreamed from https://github.com/kijai/ComfyUI-KJNodes"""
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"image1": ("IMAGE",),
"direction": (["right", "down", "left", "up"], {"default": "right"}),
"match_image_size": ("BOOLEAN", {"default": True}),
"spacing_width": (
"INT",
{"default": 0, "min": 0, "max": 1024, "step": 2},
),
"spacing_color": (
["white", "black", "red", "green", "blue"],
{"default": "white"},
),
},
"optional": {
"image2": ("IMAGE",),
},
}
RETURN_TYPES = ("IMAGE",)
FUNCTION = "stitch"
CATEGORY = "image/transform"
DESCRIPTION = """
Stitches image2 to image1 in the specified direction.
If image2 is not provided, returns image1 unchanged.
Optional spacing can be added between images.
"""
def stitch(
self,
image1,
direction,
match_image_size,
spacing_width,
spacing_color,
image2=None,
):
if image2 is None:
return (image1,)
# Handle batch size differences
if image1.shape[0] != image2.shape[0]:
max_batch = max(image1.shape[0], image2.shape[0])
if image1.shape[0] < max_batch:
image1 = torch.cat(
[image1, image1[-1:].repeat(max_batch - image1.shape[0], 1, 1, 1)]
)
if image2.shape[0] < max_batch:
image2 = torch.cat(
[image2, image2[-1:].repeat(max_batch - image2.shape[0], 1, 1, 1)]
)
# Match image sizes if requested
if match_image_size:
h1, w1 = image1.shape[1:3]
h2, w2 = image2.shape[1:3]
aspect_ratio = w2 / h2
if direction in ["left", "right"]:
target_h, target_w = h1, int(h1 * aspect_ratio)
else: # up, down
target_w, target_h = w1, int(w1 / aspect_ratio)
image2 = comfy.utils.common_upscale(
image2.movedim(-1, 1), target_w, target_h, "lanczos", "disabled"
).movedim(1, -1)
# When not matching sizes, pad to align non-concat dimensions
if not match_image_size:
h1, w1 = image1.shape[1:3]
h2, w2 = image2.shape[1:3]
if direction in ["left", "right"]:
# For horizontal concat, pad heights to match
if h1 != h2:
target_h = max(h1, h2)
if h1 < target_h:
pad_h = target_h - h1
pad_top, pad_bottom = pad_h // 2, pad_h - pad_h // 2
image1 = torch.nn.functional.pad(image1, (0, 0, 0, 0, pad_top, pad_bottom), mode='constant', value=0.0)
if h2 < target_h:
pad_h = target_h - h2
pad_top, pad_bottom = pad_h // 2, pad_h - pad_h // 2
image2 = torch.nn.functional.pad(image2, (0, 0, 0, 0, pad_top, pad_bottom), mode='constant', value=0.0)
else: # up, down
# For vertical concat, pad widths to match
if w1 != w2:
target_w = max(w1, w2)
if w1 < target_w:
pad_w = target_w - w1
pad_left, pad_right = pad_w // 2, pad_w - pad_w // 2
image1 = torch.nn.functional.pad(image1, (0, 0, pad_left, pad_right), mode='constant', value=0.0)
if w2 < target_w:
pad_w = target_w - w2
pad_left, pad_right = pad_w // 2, pad_w - pad_w // 2
image2 = torch.nn.functional.pad(image2, (0, 0, pad_left, pad_right), mode='constant', value=0.0)
# Ensure same number of channels
if image1.shape[-1] != image2.shape[-1]:
max_channels = max(image1.shape[-1], image2.shape[-1])
if image1.shape[-1] < max_channels:
image1 = torch.cat(
[
image1,
torch.ones(
*image1.shape[:-1],
max_channels - image1.shape[-1],
device=image1.device,
),
],
dim=-1,
)
if image2.shape[-1] < max_channels:
image2 = torch.cat(
[
image2,
torch.ones(
*image2.shape[:-1],
max_channels - image2.shape[-1],
device=image2.device,
),
],
dim=-1,
)
# Add spacing if specified
if spacing_width > 0:
spacing_width = spacing_width + (spacing_width % 2) # Ensure even
color_map = {
"white": 1.0,
"black": 0.0,
"red": (1.0, 0.0, 0.0),
"green": (0.0, 1.0, 0.0),
"blue": (0.0, 0.0, 1.0),
}
color_val = color_map[spacing_color]
if direction in ["left", "right"]:
spacing_shape = (
image1.shape[0],
max(image1.shape[1], image2.shape[1]),
spacing_width,
image1.shape[-1],
)
else:
spacing_shape = (
image1.shape[0],
spacing_width,
max(image1.shape[2], image2.shape[2]),
image1.shape[-1],
)
spacing = torch.full(spacing_shape, 0.0, device=image1.device)
if isinstance(color_val, tuple):
for i, c in enumerate(color_val):
if i < spacing.shape[-1]:
spacing[..., i] = c
if spacing.shape[-1] == 4: # Add alpha
spacing[..., 3] = 1.0
else:
spacing[..., : min(3, spacing.shape[-1])] = color_val
if spacing.shape[-1] == 4:
spacing[..., 3] = 1.0
# Concatenate images
images = [image2, image1] if direction in ["left", "up"] else [image1, image2]
if spacing_width > 0:
images.insert(1, spacing)
concat_dim = 2 if direction in ["left", "right"] else 1
return (torch.cat(images, dim=concat_dim),)
class SaveSVGNode:
"""
Save SVG files on disk.
@ -291,11 +492,45 @@ class SaveSVGNode:
counter += 1
return { "ui": { "images": results } }
class GetImageSize:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"image": (IO.IMAGE,),
},
"hidden": {
"unique_id": "UNIQUE_ID",
}
}
RETURN_TYPES = (IO.INT, IO.INT, IO.INT)
RETURN_NAMES = ("width", "height", "batch_size")
FUNCTION = "get_size"
CATEGORY = "image"
DESCRIPTION = """Returns width and height of the image, and passes it through unchanged."""
def get_size(self, image, unique_id=None) -> tuple[int, int]:
height = image.shape[1]
width = image.shape[2]
batch_size = image.shape[0]
# Send progress text to display size on the node
if unique_id:
PromptServer.instance.send_progress_text(f"width: {width}, height: {height}\n batch size: {batch_size}", unique_id)
return width, height, batch_size
NODE_CLASS_MAPPINGS = {
"ImageCrop": ImageCrop,
"RepeatImageBatch": RepeatImageBatch,
"ImageFromBatch": ImageFromBatch,
"ImageAddNoise": ImageAddNoise,
"SaveAnimatedWEBP": SaveAnimatedWEBP,
"SaveAnimatedPNG": SaveAnimatedPNG,
"SaveSVGNode": SaveSVGNode,
"ImageStitch": ImageStitch,
"GetImageSize": GetImageSize,
}

2
comfy_extras/nodes_load_3d.py
View File

@ -16,7 +16,7 @@ class Load3D():
os.makedirs(input_dir, exist_ok=True)
files = [normalize_path(os.path.join("3d", f)) for f in os.listdir(input_dir) if f.endswith(('.gltf', '.glb', '.obj', '.mtl', '.fbx', '.stl'))]
files = [normalize_path(os.path.join("3d", f)) for f in os.listdir(input_dir) if f.endswith(('.gltf', '.glb', '.obj', '.fbx', '.stl'))]
return {"required": {
"model_file": (sorted(files), {"file_upload": True}),

8
comfy_extras/nodes_model_advanced.py
View File

@ -189,7 +189,7 @@ class ModelSamplingContinuousEDM:
@classmethod
def INPUT_TYPES(s):
return {"required": { "model": ("MODEL",),
"sampling": (["v_prediction", "edm", "edm_playground_v2.5", "eps"],),
"sampling": (["v_prediction", "edm", "edm_playground_v2.5", "eps", "cosmos_rflow"],),
"sigma_max": ("FLOAT", {"default": 120.0, "min": 0.0, "max": 1000.0, "step":0.001, "round": False}),
"sigma_min": ("FLOAT", {"default": 0.002, "min": 0.0, "max": 1000.0, "step":0.001, "round": False}),
}}
@ -202,6 +202,7 @@ class ModelSamplingContinuousEDM:
def patch(self, model, sampling, sigma_max, sigma_min):
m = model.clone()
sampling_base = comfy.model_sampling.ModelSamplingContinuousEDM
latent_format = None
sigma_data = 1.0
if sampling == "eps":
@ -215,8 +216,11 @@ class ModelSamplingContinuousEDM:
sampling_type = comfy.model_sampling.EDM
sigma_data = 0.5
latent_format = comfy.latent_formats.SDXL_Playground_2_5()
elif sampling == "cosmos_rflow":
sampling_type = comfy.model_sampling.COSMOS_RFLOW
sampling_base = comfy.model_sampling.ModelSamplingCosmosRFlow
class ModelSamplingAdvanced(comfy.model_sampling.ModelSamplingContinuousEDM, sampling_type):
class ModelSamplingAdvanced(sampling_base, sampling_type):
pass
model_sampling = ModelSamplingAdvanced(model.model.model_config)

48
comfy_extras/nodes_string.py
View File

@ -8,7 +8,8 @@ class StringConcatenate():
return {
"required": {
"string_a": (IO.STRING, {"multiline": True}),
"string_b": (IO.STRING, {"multiline": True})
"string_b": (IO.STRING, {"multiline": True}),
"delimiter": (IO.STRING, {"multiline": False, "default": ""})
}
}
@ -16,8 +17,8 @@ class StringConcatenate():
FUNCTION = "execute"
CATEGORY = "utils/string"
def execute(self, string_a, string_b, **kwargs):
return string_a + string_b,
def execute(self, string_a, string_b, delimiter, **kwargs):
return delimiter.join((string_a, string_b)),
class StringSubstring():
@classmethod
@ -295,6 +296,41 @@ class RegexExtract():
return result,
class RegexReplace():
DESCRIPTION = "Find and replace text using regex patterns."
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"string": (IO.STRING, {"multiline": True}),
"regex_pattern": (IO.STRING, {"multiline": True}),
"replace": (IO.STRING, {"multiline": True}),
},
"optional": {
"case_insensitive": (IO.BOOLEAN, {"default": True}),
"multiline": (IO.BOOLEAN, {"default": False}),
"dotall": (IO.BOOLEAN, {"default": False, "tooltip": "When enabled, the dot (.) character will match any character including newline characters. When disabled, dots won't match newlines."}),
"count": (IO.INT, {"default": 0, "min": 0, "max": 100, "tooltip": "Maximum number of replacements to make. Set to 0 to replace all occurrences (default). Set to 1 to replace only the first match, 2 for the first two matches, etc."}),
}
}
RETURN_TYPES = (IO.STRING,)
FUNCTION = "execute"
CATEGORY = "utils/string"
def execute(self, string, regex_pattern, replace, case_insensitive=True, multiline=False, dotall=False, count=0, **kwargs):
flags = 0
if case_insensitive:
flags |= re.IGNORECASE
if multiline:
flags |= re.MULTILINE
if dotall:
flags |= re.DOTALL
result = re.sub(regex_pattern, replace, string, count=count, flags=flags)
return result,
NODE_CLASS_MAPPINGS = {
"StringConcatenate": StringConcatenate,
"StringSubstring": StringSubstring,
@ -305,7 +341,8 @@ NODE_CLASS_MAPPINGS = {
"StringContains": StringContains,
"StringCompare": StringCompare,
"RegexMatch": RegexMatch,
"RegexExtract": RegexExtract
"RegexExtract": RegexExtract,
"RegexReplace": RegexReplace,
}
NODE_DISPLAY_NAME_MAPPINGS = {
@ -318,5 +355,6 @@ NODE_DISPLAY_NAME_MAPPINGS = {
"StringContains": "Contains",
"StringCompare": "Compare",
"RegexMatch": "Regex Match",
"RegexExtract": "Regex Extract"
"RegexExtract": "Regex Extract",
"RegexReplace": "Regex Replace",
}

5
comfy_extras/nodes_torch_compile.py
View File

@ -1,4 +1,5 @@
import torch
from comfy_api.torch_helpers import set_torch_compile_wrapper
class TorchCompileModel:
@classmethod
@ -14,7 +15,7 @@ class TorchCompileModel:
def patch(self, model, backend):
m = model.clone()
m.add_object_patch("diffusion_model", torch.compile(model=m.get_model_object("diffusion_model"), backend=backend))
set_torch_compile_wrapper(model=m, backend=backend)
return (m, )
NODE_CLASS_MAPPINGS = {

709
comfy_extras/nodes_train.py Normal file
View File

@ -0,0 +1,709 @@
import datetime
import json
import logging
import os
import numpy as np
import safetensors
import torch
from PIL import Image, ImageDraw, ImageFont
from PIL.PngImagePlugin import PngInfo
import torch.utils.checkpoint
import tqdm
import comfy.samplers
import comfy.sd
import comfy.utils
import comfy.model_management
import comfy_extras.nodes_custom_sampler
import folder_paths
import node_helpers
from comfy.cli_args import args
from comfy.comfy_types.node_typing import IO
from comfy.weight_adapter import adapters
class TrainSampler(comfy.samplers.Sampler):
def __init__(self, loss_fn, optimizer, loss_callback=None):
self.loss_fn = loss_fn
self.optimizer = optimizer
self.loss_callback = loss_callback
def sample(self, model_wrap, sigmas, extra_args, callback, noise, latent_image=None, denoise_mask=None, disable_pbar=False):
self.optimizer.zero_grad()
noise = model_wrap.inner_model.model_sampling.noise_scaling(sigmas, noise, latent_image, False)
latent = model_wrap.inner_model.model_sampling.noise_scaling(
torch.zeros_like(sigmas),
torch.zeros_like(noise, requires_grad=True),
latent_image,
False
)
# Ensure model is in training mode and computing gradients
# x0 pred
denoised = model_wrap(noise, sigmas, **extra_args)
try:
loss = self.loss_fn(denoised, latent.clone())
except RuntimeError as e:
if "does not require grad and does not have a grad_fn" in str(e):
logging.info("WARNING: This is likely due to the model is loaded in inference mode.")
loss.backward()
if self.loss_callback:
self.loss_callback(loss.item())
self.optimizer.step()
# torch.cuda.memory._dump_snapshot("trainn.pickle")
# torch.cuda.memory._record_memory_history(enabled=None)
return torch.zeros_like(latent_image)
class BiasDiff(torch.nn.Module):
def __init__(self, bias):
super().__init__()
self.bias = bias
def __call__(self, b):
org_dtype = b.dtype
return (b.to(self.bias) + self.bias).to(org_dtype)
def passive_memory_usage(self):
return self.bias.nelement() * self.bias.element_size()
def move_to(self, device):
self.to(device=device)
return self.passive_memory_usage()
def load_and_process_images(image_files, input_dir, resize_method="None"):
"""Utility function to load and process a list of images.
Args:
image_files: List of image filenames
input_dir: Base directory containing the images
resize_method: How to handle images of different sizes ("None", "Stretch", "Crop", "Pad")
Returns:
torch.Tensor: Batch of processed images
"""
if not image_files:
raise ValueError("No valid images found in input")
output_images = []
w, h = None, None
for file in image_files:
image_path = os.path.join(input_dir, file)
img = node_helpers.pillow(Image.open, image_path)
if img.mode == "I":
img = img.point(lambda i: i * (1 / 255))
img = img.convert("RGB")
if w is None and h is None:
w, h = img.size[0], img.size[1]
# Resize image to first image
if img.size[0] != w or img.size[1] != h:
if resize_method == "Stretch":
img = img.resize((w, h), Image.Resampling.LANCZOS)
elif resize_method == "Crop":
img = img.crop((0, 0, w, h))
elif resize_method == "Pad":
img = img.resize((w, h), Image.Resampling.LANCZOS)
elif resize_method == "None":
raise ValueError(
"Your input image size does not match the first image in the dataset. Either select a valid resize method or use the same size for all images."
)
img_array = np.array(img).astype(np.float32) / 255.0
img_tensor = torch.from_numpy(img_array)[None,]
output_images.append(img_tensor)
return torch.cat(output_images, dim=0)
class LoadImageSetNode:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"images": (
[
f
for f in os.listdir(folder_paths.get_input_directory())
if f.endswith((".png", ".jpg", ".jpeg", ".webp", ".bmp", ".gif", ".jpe", ".apng", ".tif", ".tiff"))
],
{"image_upload": True, "allow_batch": True},
)
},
"optional": {
"resize_method": (
["None", "Stretch", "Crop", "Pad"],
{"default": "None"},
),
},
}
INPUT_IS_LIST = True
RETURN_TYPES = ("IMAGE",)
FUNCTION = "load_images"
CATEGORY = "loaders"
EXPERIMENTAL = True
DESCRIPTION = "Loads a batch of images from a directory for training."
@classmethod
def VALIDATE_INPUTS(s, images, resize_method):
filenames = images[0] if isinstance(images[0], list) else images
for image in filenames:
if not folder_paths.exists_annotated_filepath(image):
return "Invalid image file: {}".format(image)
return True
def load_images(self, input_files, resize_method):
input_dir = folder_paths.get_input_directory()
valid_extensions = [".png", ".jpg", ".jpeg", ".webp", ".bmp", ".gif", ".jpe", ".apng", ".tif", ".tiff"]
image_files = [
f
for f in input_files
if any(f.lower().endswith(ext) for ext in valid_extensions)
]
output_tensor = load_and_process_images(image_files, input_dir, resize_method)
return (output_tensor,)
class LoadImageSetFromFolderNode:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"folder": (folder_paths.get_input_subfolders(), {"tooltip": "The folder to load images from."})
},
"optional": {
"resize_method": (
["None", "Stretch", "Crop", "Pad"],
{"default": "None"},
),
},
}
RETURN_TYPES = ("IMAGE",)
FUNCTION = "load_images"
CATEGORY = "loaders"
EXPERIMENTAL = True
DESCRIPTION = "Loads a batch of images from a directory for training."
def load_images(self, folder, resize_method):
sub_input_dir = os.path.join(folder_paths.get_input_directory(), folder)
valid_extensions = [".png", ".jpg", ".jpeg", ".webp"]
image_files = [
f
for f in os.listdir(sub_input_dir)
if any(f.lower().endswith(ext) for ext in valid_extensions)
]
output_tensor = load_and_process_images(image_files, sub_input_dir, resize_method)
return (output_tensor,)
def draw_loss_graph(loss_map, steps):
width, height = 500, 300
img = Image.new("RGB", (width, height), "white")
draw = ImageDraw.Draw(img)
min_loss, max_loss = min(loss_map.values()), max(loss_map.values())
scaled_loss = [(l - min_loss) / (max_loss - min_loss) for l in loss_map.values()]
prev_point = (0, height - int(scaled_loss[0] * height))
for i, l in enumerate(scaled_loss[1:], start=1):
x = int(i / (steps - 1) * width)
y = height - int(l * height)
draw.line([prev_point, (x, y)], fill="blue", width=2)
prev_point = (x, y)
return img
def find_all_highest_child_module_with_forward(model: torch.nn.Module, result = None, name = None):
if result is None:
result = []
elif hasattr(model, "forward") and not isinstance(model, (torch.nn.ModuleList, torch.nn.Sequential, torch.nn.ModuleDict)):
result.append(model)
logging.debug(f"Found module with forward: {name} ({model.__class__.__name__})")
return result
name = name or "root"
for next_name, child in model.named_children():
find_all_highest_child_module_with_forward(child, result, f"{name}.{next_name}")
return result
def patch(m):
if not hasattr(m, "forward"):
return
org_forward = m.forward
def fwd(args, kwargs):
return org_forward(*args, **kwargs)
def checkpointing_fwd(*args, **kwargs):
return torch.utils.checkpoint.checkpoint(
fwd, args, kwargs, use_reentrant=False
)
m.org_forward = org_forward
m.forward = checkpointing_fwd
def unpatch(m):
if hasattr(m, "org_forward"):
m.forward = m.org_forward
del m.org_forward
class TrainLoraNode:
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"model": (IO.MODEL, {"tooltip": "The model to train the LoRA on."}),
"latents": (
"LATENT",
{
"tooltip": "The Latents to use for training, serve as dataset/input of the model."
},
),
"positive": (
IO.CONDITIONING,
{"tooltip": "The positive conditioning to use for training."},
),
"batch_size": (
IO.INT,
{
"default": 1,
"min": 1,
"max": 10000,
"step": 1,
"tooltip": "The batch size to use for training.",
},
),
"steps": (
IO.INT,
{
"default": 16,
"min": 1,
"max": 100000,
"tooltip": "The number of steps to train the LoRA for.",
},
),
"learning_rate": (
IO.FLOAT,
{
"default": 0.0005,
"min": 0.0000001,
"max": 1.0,
"step": 0.000001,
"tooltip": "The learning rate to use for training.",
},
),
"rank": (
IO.INT,
{
"default": 8,
"min": 1,
"max": 128,
"tooltip": "The rank of the LoRA layers.",
},
),
"optimizer": (
["AdamW", "Adam", "SGD", "RMSprop"],
{
"default": "AdamW",
"tooltip": "The optimizer to use for training.",
},
),
"loss_function": (
["MSE", "L1", "Huber", "SmoothL1"],
{
"default": "MSE",
"tooltip": "The loss function to use for training.",
},
),
"seed": (
IO.INT,
{
"default": 0,
"min": 0,
"max": 0xFFFFFFFFFFFFFFFF,
"tooltip": "The seed to use for training (used in generator for LoRA weight initialization and noise sampling)",
},
),
"training_dtype": (
["bf16", "fp32"],
{"default": "bf16", "tooltip": "The dtype to use for training."},
),
"lora_dtype": (
["bf16", "fp32"],
{"default": "bf16", "tooltip": "The dtype to use for lora."},
),
"existing_lora": (
folder_paths.get_filename_list("loras") + ["[None]"],
{
"default": "[None]",
"tooltip": "The existing LoRA to append to. Set to None for new LoRA.",
},
),
},
}
RETURN_TYPES = (IO.MODEL, IO.LORA_MODEL, IO.LOSS_MAP, IO.INT)
RETURN_NAMES = ("model_with_lora", "lora", "loss", "steps")
FUNCTION = "train"
CATEGORY = "training"
EXPERIMENTAL = True
def train(
self,
model,
latents,
positive,
batch_size,
steps,
learning_rate,
rank,
optimizer,
loss_function,
seed,
training_dtype,
lora_dtype,
existing_lora,
):
mp = model.clone()
dtype = node_helpers.string_to_torch_dtype(training_dtype)
lora_dtype = node_helpers.string_to_torch_dtype(lora_dtype)
mp.set_model_compute_dtype(dtype)
latents = latents["samples"].to(dtype)
num_images = latents.shape[0]
with torch.inference_mode(False):
lora_sd = {}
generator = torch.Generator()
generator.manual_seed(seed)
# Load existing LoRA weights if provided
existing_weights = {}
existing_steps = 0
if existing_lora != "[None]":
lora_path = folder_paths.get_full_path_or_raise("loras", existing_lora)
# Extract steps from filename like "trained_lora_10_steps_20250225_203716"
existing_steps = int(existing_lora.split("_steps_")[0].split("_")[-1])
if lora_path:
existing_weights = comfy.utils.load_torch_file(lora_path)
all_weight_adapters = []
for n, m in mp.model.named_modules():
if hasattr(m, "weight_function"):
if m.weight is not None:
key = "{}.weight".format(n)
shape = m.weight.shape
if len(shape) >= 2:
alpha = float(existing_weights.get(f"{key}.alpha", 1.0))
dora_scale = existing_weights.get(
f"{key}.dora_scale", None
)
for adapter_cls in adapters:
existing_adapter = adapter_cls.load(
n, existing_weights, alpha, dora_scale
)
if existing_adapter is not None:
break
else:
# If no existing adapter found, use LoRA
# We will add algo option in the future
existing_adapter = None
adapter_cls = adapters[0]
if existing_adapter is not None:
train_adapter = existing_adapter.to_train().to(lora_dtype)
else:
# Use LoRA with alpha=1.0 by default
train_adapter = adapter_cls.create_train(
m.weight, rank=rank, alpha=1.0
).to(lora_dtype)
for name, parameter in train_adapter.named_parameters():
lora_sd[f"{n}.{name}"] = parameter
mp.add_weight_wrapper(key, train_adapter)
all_weight_adapters.append(train_adapter)
else:
diff = torch.nn.Parameter(
torch.zeros(
m.weight.shape, dtype=lora_dtype, requires_grad=True
)
)
diff_module = BiasDiff(diff)
mp.add_weight_wrapper(key, BiasDiff(diff))
all_weight_adapters.append(diff_module)
lora_sd["{}.diff".format(n)] = diff
if hasattr(m, "bias") and m.bias is not None:
key = "{}.bias".format(n)
bias = torch.nn.Parameter(
torch.zeros(m.bias.shape, dtype=lora_dtype, requires_grad=True)
)
bias_module = BiasDiff(bias)
lora_sd["{}.diff_b".format(n)] = bias
mp.add_weight_wrapper(key, BiasDiff(bias))
all_weight_adapters.append(bias_module)
if optimizer == "Adam":
optimizer = torch.optim.Adam(lora_sd.values(), lr=learning_rate)
elif optimizer == "AdamW":
optimizer = torch.optim.AdamW(lora_sd.values(), lr=learning_rate)
elif optimizer == "SGD":
optimizer = torch.optim.SGD(lora_sd.values(), lr=learning_rate)
elif optimizer == "RMSprop":
optimizer = torch.optim.RMSprop(lora_sd.values(), lr=learning_rate)
# Setup loss function based on selection
if loss_function == "MSE":
criterion = torch.nn.MSELoss()
elif loss_function == "L1":
criterion = torch.nn.L1Loss()
elif loss_function == "Huber":
criterion = torch.nn.HuberLoss()
elif loss_function == "SmoothL1":
criterion = torch.nn.SmoothL1Loss()
# setup models
for m in find_all_highest_child_module_with_forward(mp.model.diffusion_model):
patch(m)
comfy.model_management.load_models_gpu([mp], memory_required=1e20, force_full_load=True)
# Setup sampler and guider like in test script
loss_map = {"loss": []}
def loss_callback(loss):
loss_map["loss"].append(loss)
pbar.set_postfix({"loss": f"{loss:.4f}"})
train_sampler = TrainSampler(
criterion, optimizer, loss_callback=loss_callback
)
guider = comfy_extras.nodes_custom_sampler.Guider_Basic(mp)
guider.set_conds(positive) # Set conditioning from input
ss = comfy_extras.nodes_custom_sampler.SamplerCustomAdvanced()
# yoland: this currently resize to the first image in the dataset
# Training loop
torch.cuda.empty_cache()
try:
for step in (pbar:=tqdm.trange(steps, desc="Training LoRA", smoothing=0.01, disable=not comfy.utils.PROGRESS_BAR_ENABLED)):
# Generate random sigma
sigma = mp.model.model_sampling.percent_to_sigma(
torch.rand((1,)).item()
)
sigma = torch.tensor([sigma])
noise = comfy_extras.nodes_custom_sampler.Noise_RandomNoise(step * 1000 + seed)
indices = torch.randperm(num_images)[:batch_size]
ss.sample(
noise, guider, train_sampler, sigma, {"samples": latents[indices].clone()}
)
finally:
for m in mp.model.modules():
unpatch(m)
del ss, train_sampler, optimizer
torch.cuda.empty_cache()
for adapter in all_weight_adapters:
adapter.requires_grad_(False)
for param in lora_sd:
lora_sd[param] = lora_sd[param].to(lora_dtype)
return (mp, lora_sd, loss_map, steps + existing_steps)
class LoraModelLoader:
def __init__(self):
self.loaded_lora = None
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"model": ("MODEL", {"tooltip": "The diffusion model the LoRA will be applied to."}),
"lora": (IO.LORA_MODEL, {"tooltip": "The LoRA model to apply to the diffusion model."}),
"strength_model": ("FLOAT", {"default": 1.0, "min": -100.0, "max": 100.0, "step": 0.01, "tooltip": "How strongly to modify the diffusion model. This value can be negative."}),
}
}
RETURN_TYPES = ("MODEL",)
OUTPUT_TOOLTIPS = ("The modified diffusion model.",)
FUNCTION = "load_lora_model"
CATEGORY = "loaders"
DESCRIPTION = "Load Trained LoRA weights from Train LoRA node."
EXPERIMENTAL = True
def load_lora_model(self, model, lora, strength_model):
if strength_model == 0:
return (model, )
model_lora, _ = comfy.sd.load_lora_for_models(model, None, lora, strength_model, 0)
return (model_lora, )
class SaveLoRA:
def __init__(self):
self.output_dir = folder_paths.get_output_directory()
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"lora": (
IO.LORA_MODEL,
{
"tooltip": "The LoRA model to save. Do not use the model with LoRA layers."
},
),
"prefix": (
"STRING",
{
"default": "loras/ComfyUI_trained_lora",
"tooltip": "The prefix to use for the saved LoRA file.",
},
),
},
"optional": {
"steps": (
IO.INT,
{
"forceInput": True,
"tooltip": "Optional: The number of steps to LoRA has been trained for, used to name the saved file.",
},
),
},
}
RETURN_TYPES = ()
FUNCTION = "save"
CATEGORY = "loaders"
EXPERIMENTAL = True
OUTPUT_NODE = True
def save(self, lora, prefix, steps=None):
full_output_folder, filename, counter, subfolder, filename_prefix = folder_paths.get_save_image_path(prefix, self.output_dir)
if steps is None:
output_checkpoint = f"{filename}_{counter:05}_.safetensors"
else:
output_checkpoint = f"{filename}_{steps}_steps_{counter:05}_.safetensors"
output_checkpoint = os.path.join(full_output_folder, output_checkpoint)
safetensors.torch.save_file(lora, output_checkpoint)
return {}
class LossGraphNode:
def __init__(self):
self.output_dir = folder_paths.get_temp_directory()
@classmethod
def INPUT_TYPES(s):
return {
"required": {
"loss": (IO.LOSS_MAP, {"default": {}}),
"filename_prefix": (IO.STRING, {"default": "loss_graph"}),
},
"hidden": {"prompt": "PROMPT", "extra_pnginfo": "EXTRA_PNGINFO"},
}
RETURN_TYPES = ()
FUNCTION = "plot_loss"
OUTPUT_NODE = True
CATEGORY = "training"
EXPERIMENTAL = True
DESCRIPTION = "Plots the loss graph and saves it to the output directory."
def plot_loss(self, loss, filename_prefix, prompt=None, extra_pnginfo=None):
loss_values = loss["loss"]
width, height = 800, 480
margin = 40
img = Image.new(
"RGB", (width + margin, height + margin), "white"
) # Extend canvas
draw = ImageDraw.Draw(img)
min_loss, max_loss = min(loss_values), max(loss_values)
scaled_loss = [(l - min_loss) / (max_loss - min_loss) for l in loss_values]
steps = len(loss_values)
prev_point = (margin, height - int(scaled_loss[0] * height))
for i, l in enumerate(scaled_loss[1:], start=1):
x = margin + int(i / steps * width) # Scale X properly
y = height - int(l * height)
draw.line([prev_point, (x, y)], fill="blue", width=2)
prev_point = (x, y)
draw.line([(margin, 0), (margin, height)], fill="black", width=2) # Y-axis
draw.line(
[(margin, height), (width + margin, height)], fill="black", width=2
) # X-axis
font = None
try:
font = ImageFont.truetype("arial.ttf", 12)
except IOError:
font = ImageFont.load_default()
# Add axis labels
draw.text((5, height // 2), "Loss", font=font, fill="black")
draw.text((width // 2, height + 10), "Steps", font=font, fill="black")
# Add min/max loss values
draw.text((margin - 30, 0), f"{max_loss:.2f}", font=font, fill="black")
draw.text(
(margin - 30, height - 10), f"{min_loss:.2f}", font=font, fill="black"
)
metadata = None
if not args.disable_metadata:
metadata = PngInfo()
if prompt is not None:
metadata.add_text("prompt", json.dumps(prompt))
if extra_pnginfo is not None:
for x in extra_pnginfo:
metadata.add_text(x, json.dumps(extra_pnginfo[x]))
date = datetime.datetime.now().strftime("%Y%m%d_%H%M%S")
img.save(
os.path.join(self.output_dir, f"{filename_prefix}_{date}.png"),
pnginfo=metadata,
)
return {
"ui": {
"images": [
{
"filename": f"{filename_prefix}_{date}.png",
"subfolder": "",
"type": "temp",
}
]
}
}
NODE_CLASS_MAPPINGS = {
"TrainLoraNode": TrainLoraNode,
"SaveLoRANode": SaveLoRA,
"LoraModelLoader": LoraModelLoader,
"LoadImageSetFromFolderNode": LoadImageSetFromFolderNode,
"LossGraphNode": LossGraphNode,
}
NODE_DISPLAY_NAME_MAPPINGS = {
"TrainLoraNode": "Train LoRA",
"SaveLoRANode": "Save LoRA Weights",
"LoraModelLoader": "Load LoRA Model",
"LoadImageSetFromFolderNode": "Load Image Dataset from Folder",
"LossGraphNode": "Plot Loss Graph",
}

91
comfy_extras/nodes_wan.py
View File

@ -268,8 +268,9 @@ class WanVaceToVideo:
trim_latent = reference_image.shape[2]
mask = mask.unsqueeze(0)
positive = node_helpers.conditioning_set_values(positive, {"vace_frames": control_video_latent, "vace_mask": mask, "vace_strength": strength})
negative = node_helpers.conditioning_set_values(negative, {"vace_frames": control_video_latent, "vace_mask": mask, "vace_strength": strength})
positive = node_helpers.conditioning_set_values(positive, {"vace_frames": [control_video_latent], "vace_mask": [mask], "vace_strength": [strength]}, append=True)
negative = node_helpers.conditioning_set_values(negative, {"vace_frames": [control_video_latent], "vace_mask": [mask], "vace_strength": [strength]}, append=True)
latent = torch.zeros([batch_size, 16, latent_length, height // 8, width // 8], device=comfy.model_management.intermediate_device())
out_latent = {}
@ -297,6 +298,90 @@ class TrimVideoLatent:
samples_out["samples"] = s1[:, :, trim_amount:]
return (samples_out,)
class WanCameraImageToVideo:
@classmethod
def INPUT_TYPES(s):
return {"required": {"positive": ("CONDITIONING", ),
"negative": ("CONDITIONING", ),
"vae": ("VAE", ),
"width": ("INT", {"default": 832, "min": 16, "max": nodes.MAX_RESOLUTION, "step": 16}),
"height": ("INT", {"default": 480, "min": 16, "max": nodes.MAX_RESOLUTION, "step": 16}),
"length": ("INT", {"default": 81, "min": 1, "max": nodes.MAX_RESOLUTION, "step": 4}),
"batch_size": ("INT", {"default": 1, "min": 1, "max": 4096}),
},
"optional": {"clip_vision_output": ("CLIP_VISION_OUTPUT", ),
"start_image": ("IMAGE", ),
"camera_conditions": ("WAN_CAMERA_EMBEDDING", ),
}}
RETURN_TYPES = ("CONDITIONING", "CONDITIONING", "LATENT")
RETURN_NAMES = ("positive", "negative", "latent")
FUNCTION = "encode"
CATEGORY = "conditioning/video_models"
def encode(self, positive, negative, vae, width, height, length, batch_size, start_image=None, clip_vision_output=None, camera_conditions=None):
latent = torch.zeros([batch_size, 16, ((length - 1) // 4) + 1, height // 8, width // 8], device=comfy.model_management.intermediate_device())
concat_latent = torch.zeros([batch_size, 16, ((length - 1) // 4) + 1, height // 8, width // 8], device=comfy.model_management.intermediate_device())
concat_latent = comfy.latent_formats.Wan21().process_out(concat_latent)
if start_image is not None:
start_image = comfy.utils.common_upscale(start_image[:length].movedim(-1, 1), width, height, "bilinear", "center").movedim(1, -1)
concat_latent_image = vae.encode(start_image[:, :, :, :3])
concat_latent[:,:,:concat_latent_image.shape[2]] = concat_latent_image[:,:,:concat_latent.shape[2]]
positive = node_helpers.conditioning_set_values(positive, {"concat_latent_image": concat_latent})
negative = node_helpers.conditioning_set_values(negative, {"concat_latent_image": concat_latent})
if camera_conditions is not None:
positive = node_helpers.conditioning_set_values(positive, {'camera_conditions': camera_conditions})
negative = node_helpers.conditioning_set_values(negative, {'camera_conditions': camera_conditions})
if clip_vision_output is not None:
positive = node_helpers.conditioning_set_values(positive, {"clip_vision_output": clip_vision_output})
negative = node_helpers.conditioning_set_values(negative, {"clip_vision_output": clip_vision_output})
out_latent = {}
out_latent["samples"] = latent
return (positive, negative, out_latent)
class WanPhantomSubjectToVideo:
@classmethod
def INPUT_TYPES(s):
return {"required": {"positive": ("CONDITIONING", ),
"negative": ("CONDITIONING", ),
"vae": ("VAE", ),
"width": ("INT", {"default": 832, "min": 16, "max": nodes.MAX_RESOLUTION, "step": 16}),
"height": ("INT", {"default": 480, "min": 16, "max": nodes.MAX_RESOLUTION, "step": 16}),
"length": ("INT", {"default": 81, "min": 1, "max": nodes.MAX_RESOLUTION, "step": 4}),
"batch_size": ("INT", {"default": 1, "min": 1, "max": 4096}),
},
"optional": {"images": ("IMAGE", ),
}}
RETURN_TYPES = ("CONDITIONING", "CONDITIONING", "CONDITIONING", "LATENT")
RETURN_NAMES = ("positive", "negative_text", "negative_img_text", "latent")
FUNCTION = "encode"
CATEGORY = "conditioning/video_models"
def encode(self, positive, negative, vae, width, height, length, batch_size, images):
latent = torch.zeros([batch_size, 16, ((length - 1) // 4) + 1, height // 8, width // 8], device=comfy.model_management.intermediate_device())
cond2 = negative
if images is not None:
images = comfy.utils.common_upscale(images[:length].movedim(-1, 1), width, height, "bilinear", "center").movedim(1, -1)
latent_images = []
for i in images:
latent_images += [vae.encode(i.unsqueeze(0)[:, :, :, :3])]
concat_latent_image = torch.cat(latent_images, dim=2)
positive = node_helpers.conditioning_set_values(positive, {"time_dim_concat": concat_latent_image})
cond2 = node_helpers.conditioning_set_values(negative, {"time_dim_concat": concat_latent_image})
negative = node_helpers.conditioning_set_values(negative, {"time_dim_concat": comfy.latent_formats.Wan21().process_out(torch.zeros_like(concat_latent_image))})
out_latent = {}
out_latent["samples"] = latent
return (positive, cond2, negative, out_latent)
NODE_CLASS_MAPPINGS = {
"WanImageToVideo": WanImageToVideo,
@ -305,4 +390,6 @@ NODE_CLASS_MAPPINGS = {
"WanFirstLastFrameToVideo": WanFirstLastFrameToVideo,
"WanVaceToVideo": WanVaceToVideo,
"TrimVideoLatent": TrimVideoLatent,
"WanCameraImageToVideo": WanCameraImageToVideo,
"WanPhantomSubjectToVideo": WanPhantomSubjectToVideo,
}

4
comfy_extras/nodes_webcam.py
View File

@ -23,6 +23,10 @@ class WebcamCapture(nodes.LoadImage):
def load_capture(self, image, **kwargs):
return super().load_image(folder_paths.get_annotated_filepath(image))
@classmethod
def IS_CHANGED(cls, image, width, height, capture_on_queue):
return super().IS_CHANGED(image)
NODE_CLASS_MAPPINGS = {
"WebcamCapture": WebcamCapture,

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__ = "0.3.34"
__version__ = "0.3.41"

37
execution.py
View File

@ -1,23 +1,35 @@
import sys
import copy
import logging
import threading
import heapq
import inspect
import logging
import sys
import threading
import time
import traceback
from enum import Enum
import inspect
from typing import List, Literal, NamedTuple, Optional
import torch
import nodes
import comfy.model_management
from comfy_execution.graph import get_input_info, ExecutionList, DynamicPrompt, ExecutionBlocker
from comfy_execution.graph_utils import is_link, GraphBuilder
from comfy_execution.caching import HierarchicalCache, LRUCache, DependencyAwareCache, CacheKeySetInputSignature, CacheKeySetID
import nodes
from comfy_execution.caching import (
CacheKeySetID,
CacheKeySetInputSignature,
DependencyAwareCache,
HierarchicalCache,
LRUCache,
)
from comfy_execution.graph import (
DynamicPrompt,
ExecutionBlocker,
ExecutionList,
get_input_info,
)
from comfy_execution.graph_utils import GraphBuilder, is_link
from comfy_execution.validation import validate_node_input
class ExecutionResult(Enum):
SUCCESS = 0
FAILURE = 1
@ -909,7 +921,6 @@ class PromptQueue:
self.currently_running = {}
self.history = {}
self.flags = {}
server.prompt_queue = self
def put(self, item):
with self.mutex:
@ -954,6 +965,7 @@ class PromptQueue:
self.history[prompt[1]].update(history_result)
self.server.queue_updated()
# Note: slow
def get_current_queue(self):
with self.mutex:
out = []
@ -961,6 +973,13 @@ class PromptQueue:
out += [x]
return (out, copy.deepcopy(self.queue))
# read-safe as long as queue items are immutable
def get_current_queue_volatile(self):
with self.mutex:
running = [x for x in self.currently_running.values()]
queued = copy.copy(self.queue)
return (running, queued)
def get_tasks_remaining(self):
with self.mutex:
return len(self.queue) + len(self.currently_running)

28
fix_torch.py
View File

@ -1,28 +0,0 @@
import importlib.util
import shutil
import os
import ctypes
import logging
def fix_pytorch_libomp():
"""
Fix PyTorch libomp DLL issue on Windows by copying the correct DLL file if needed.
"""
torch_spec = importlib.util.find_spec("torch")
for folder in torch_spec.submodule_search_locations:
lib_folder = os.path.join(folder, "lib")
test_file = os.path.join(lib_folder, "fbgemm.dll")
dest = os.path.join(lib_folder, "libomp140.x86_64.dll")
if os.path.exists(dest):
break
with open(test_file, "rb") as f:
contents = f.read()
if b"libomp140.x86_64.dll" not in contents:
break
try:
ctypes.cdll.LoadLibrary(test_file)
except FileNotFoundError:
logging.warning("Detected pytorch version with libomp issue, patching.")
shutil.copyfile(os.path.join(lib_folder, "libiomp5md.dll"), dest)

29
folder_paths.py
View File

@ -276,6 +276,9 @@ def filter_files_extensions(files: Collection[str], extensions: Collection[str])
def get_full_path(folder_name: str, filename: str) -> str | None:
"""
Get the full path of a file in a folder, has to be a file
"""
global folder_names_and_paths
folder_name = map_legacy(folder_name)
if folder_name not in folder_names_and_paths:
@ -293,6 +296,9 @@ def get_full_path(folder_name: str, filename: str) -> str | None:
def get_full_path_or_raise(folder_name: str, filename: str) -> str:
"""
Get the full path of a file in a folder, has to be a file
"""
full_path = get_full_path(folder_name, filename)
if full_path is None:
raise FileNotFoundError(f"Model in folder '{folder_name}' with filename '{filename}' not found.")
@ -394,3 +400,26 @@ def get_save_image_path(filename_prefix: str, output_dir: str, image_width=0, im
os.makedirs(full_output_folder, exist_ok=True)
counter = 1
return full_output_folder, filename, counter, subfolder, filename_prefix
def get_input_subfolders() -> list[str]:
"""Returns a list of all subfolder paths in the input directory, recursively.
Returns:
List of folder paths relative to the input directory, excluding the root directory
"""
input_dir = get_input_directory()
folders = []
try:
if not os.path.exists(input_dir):
return []
for root, dirs, _ in os.walk(input_dir):
rel_path = os.path.relpath(root, input_dir)
if rel_path != ".": # Only include non-root directories
# Normalize path separators to forward slashes
folders.append(rel_path.replace(os.sep, '/'))
return sorted(folders)
except FileNotFoundError:
return []

24
main.py
View File

@ -17,7 +17,6 @@ if __name__ == "__main__":
os.environ['HF_HUB_DISABLE_TELEMETRY'] = '1'
os.environ['DO_NOT_TRACK'] = '1'
setup_logger(log_level=args.verbose, use_stdout=args.log_stdout)
def apply_custom_paths():
@ -125,13 +124,6 @@ if __name__ == "__main__":
import cuda_malloc
if args.windows_standalone_build:
try:
from fix_torch import fix_pytorch_libomp
fix_pytorch_libomp()
except:
pass
import comfy.utils
import execution
@ -245,6 +237,15 @@ def cleanup_temp():
shutil.rmtree(temp_dir, ignore_errors=True)
def setup_database():
try:
from app.database.db import init_db, dependencies_available
if dependencies_available():
init_db()
except Exception as e:
logging.error(f"Failed to initialize database. Please ensure you have installed the latest requirements. If the error persists, please report this as in future the database will be required: {e}")
def start_comfyui(asyncio_loop=None):
"""
Starts the ComfyUI server using the provided asyncio event loop or creates a new one.
@ -267,18 +268,18 @@ def start_comfyui(asyncio_loop=None):
asyncio_loop = asyncio.new_event_loop()
asyncio.set_event_loop(asyncio_loop)
prompt_server = server.PromptServer(asyncio_loop)
q = execution.PromptQueue(prompt_server)
hook_breaker_ac10a0.save_functions()
nodes.init_extra_nodes(init_custom_nodes=not args.disable_all_custom_nodes, init_api_nodes=not args.disable_api_nodes)
hook_breaker_ac10a0.restore_functions()
cuda_malloc_warning()
setup_database()
prompt_server.add_routes()
hijack_progress(prompt_server)
threading.Thread(target=prompt_worker, daemon=True, args=(q, prompt_server,)).start()
threading.Thread(target=prompt_worker, daemon=True, args=(prompt_server.prompt_queue, prompt_server,)).start()
if args.quick_test_for_ci:
exit(0)
@ -308,6 +309,9 @@ if __name__ == "__main__":
logging.info("Python version: {}".format(sys.version))
logging.info("ComfyUI version: {}".format(comfyui_version.__version__))
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.")
event_loop, _, start_all_func = start_comfyui()
try:
x = start_all_func()

10
node_helpers.py
View File

@ -5,12 +5,18 @@ from comfy.cli_args import args
from PIL import ImageFile, UnidentifiedImageError
def conditioning_set_values(conditioning, values={}):
def conditioning_set_values(conditioning, values={}, append=False):
c = []
for t in conditioning:
n = [t[0], t[1].copy()]
for k in values:
n[1][k] = values[k]
val = values[k]
if append:
old_val = n[1].get(k, None)
if old_val is not None:
val = old_val + val
n[1][k] = val
c.append(n)
return c

41
nodes.py
View File

@ -1103,16 +1103,7 @@ class unCLIPConditioning:
if strength == 0:
return (conditioning, )
c = []
for t in conditioning:
o = t[1].copy()
x = {"clip_vision_output": clip_vision_output, "strength": strength, "noise_augmentation": noise_augmentation}
if "unclip_conditioning" in o:
o["unclip_conditioning"] = o["unclip_conditioning"][:] + [x]
else:
o["unclip_conditioning"] = [x]
n = [t[0], o]
c.append(n)
c = node_helpers.conditioning_set_values(conditioning, {"unclip_conditioning": [{"clip_vision_output": clip_vision_output, "strength": strength, "noise_augmentation": noise_augmentation}]}, append=True)
return (c, )
class GLIGENLoader:
@ -1940,7 +1931,7 @@ class ImagePadForOutpaint:
mask[top:top + d2, left:left + d3] = t
return (new_image, mask)
return (new_image, mask.unsqueeze(0))
NODE_CLASS_MAPPINGS = {
@ -2070,11 +2061,13 @@ NODE_DISPLAY_NAME_MAPPINGS = {
"ImagePadForOutpaint": "Pad Image for Outpainting",
"ImageBatch": "Batch Images",
"ImageCrop": "Image Crop",
"ImageStitch": "Image Stitch",
"ImageBlend": "Image Blend",
"ImageBlur": "Image Blur",
"ImageQuantize": "Image Quantize",
"ImageSharpen": "Image Sharpen",
"ImageScaleToTotalPixels": "Scale Image to Total Pixels",
"GetImageSize": "Get Image Size",
# _for_testing
"VAEDecodeTiled": "VAE Decode (Tiled)",
"VAEEncodeTiled": "VAE Encode (Tiled)",
@ -2132,6 +2125,25 @@ def load_custom_node(module_path: str, ignore=set(), module_parent="custom_nodes
LOADED_MODULE_DIRS[module_name] = os.path.abspath(module_dir)
try:
from comfy_config import config_parser
project_config = config_parser.extract_node_configuration(module_path)
web_dir_name = project_config.tool_comfy.web
if web_dir_name:
web_dir_path = os.path.join(module_path, web_dir_name)
if os.path.isdir(web_dir_path):
project_name = project_config.project.name
EXTENSION_WEB_DIRS[project_name] = web_dir_path
logging.info("Automatically register web folder {} for {}".format(web_dir_name, project_name))
except Exception as e:
logging.warning(f"Unable to parse pyproject.toml due to lack dependency pydantic-settings, please run 'pip install -r requirements.txt': {e}")
if hasattr(module, "WEB_DIRECTORY") and getattr(module, "WEB_DIRECTORY") is not None:
web_dir = os.path.abspath(os.path.join(module_dir, getattr(module, "WEB_DIRECTORY")))
if os.path.isdir(web_dir):
@ -2219,6 +2231,7 @@ def init_builtin_extra_nodes():
"nodes_model_downscale.py",
"nodes_images.py",
"nodes_video_model.py",
"nodes_train.py",
"nodes_sag.py",
"nodes_perpneg.py",
"nodes_stable3d.py",
@ -2262,9 +2275,11 @@ def init_builtin_extra_nodes():
"nodes_optimalsteps.py",
"nodes_hidream.py",
"nodes_fresca.py",
"nodes_apg.py",
"nodes_preview_any.py",
"nodes_ace.py",
"nodes_string.py",
"nodes_camera_trajectory.py",
]
import_failed = []
@ -2289,6 +2304,10 @@ def init_builtin_api_nodes():
"nodes_pixverse.py",
"nodes_stability.py",
"nodes_pika.py",
"nodes_runway.py",
"nodes_tripo.py",
"nodes_rodin.py",
"nodes_gemini.py",
]
if not load_custom_node(os.path.join(api_nodes_dir, "canary.py"), module_parent="comfy_api_nodes"):

2
pyproject.toml
View File

@ -1,6 +1,6 @@
[project]
name = "ComfyUI"
version = "0.3.34"
version = "0.3.41"
readme = "README.md"
license = { file = "LICENSE" }
requires-python = ">=3.9"

8
requirements.txt
View File

@ -1,5 +1,6 @@
comfyui-frontend-package==1.19.9
comfyui-workflow-templates==0.1.14
comfyui-frontend-package==1.21.7
comfyui-workflow-templates==0.1.28
comfyui-embedded-docs==0.2.2
torch
torchsde
torchvision
@ -17,6 +18,8 @@ Pillow
scipy
tqdm
psutil
alembic
SQLAlchemy
#non essential dependencies:
kornia>=0.7.1
@ -24,3 +27,4 @@ spandrel
soundfile
av>=14.2.0
pydantic~=2.0
pydantic-settings~=2.0

8
script_examples/basic_api_example.py
View File

@ -101,6 +101,14 @@ prompt_text = """
def queue_prompt(prompt):
p = {"prompt": prompt}
# If the workflow contains API nodes, you can add a Comfy API key to the `extra_data`` field of the payload.
# p["extra_data"] = {
# "api_key_comfy_org": "comfyui-87d01e28d*******************************************************" # replace with real key
# }
# See: https://docs.comfy.org/tutorials/api-nodes/overview
# Generate a key here: https://platform.comfy.org/login
data = json.dumps(p).encode('utf-8')
req = request.Request("http://127.0.0.1:8188/prompt", data=data)
request.urlopen(req)

24
server.py
View File

@ -29,6 +29,7 @@ import comfy.model_management
import node_helpers
from comfyui_version import __version__
from app.frontend_management import FrontendManager
from app.user_manager import UserManager
from app.model_manager import ModelFileManager
from app.custom_node_manager import CustomNodeManager
@ -159,7 +160,7 @@ class PromptServer():
self.custom_node_manager = CustomNodeManager()
self.internal_routes = InternalRoutes(self)
self.supports = ["custom_nodes_from_web"]
self.prompt_queue = None
self.prompt_queue = execution.PromptQueue(self)
self.loop = loop
self.messages = asyncio.Queue()
self.client_session:Optional[aiohttp.ClientSession] = None
@ -226,7 +227,7 @@ class PromptServer():
return response
@routes.get("/embeddings")
def get_embeddings(self):
def get_embeddings(request):
embeddings = folder_paths.get_filename_list("embeddings")
return web.json_response(list(map(lambda a: os.path.splitext(a)[0], embeddings)))
@ -282,7 +283,6 @@ class PromptServer():
a.update(f.read())
b.update(image.file.read())
image.file.seek(0)
f.close()
return a.hexdigest() == b.hexdigest()
return False
@ -390,7 +390,7 @@ class PromptServer():
async def view_image(request):
if "filename" in request.rel_url.query:
filename = request.rel_url.query["filename"]
filename,output_dir = folder_paths.annotated_filepath(filename)
filename, output_dir = folder_paths.annotated_filepath(filename)
if not filename:
return web.Response(status=400)
@ -476,9 +476,8 @@ class PromptServer():
# Get content type from mimetype, defaulting to 'application/octet-stream'
content_type = mimetypes.guess_type(filename)[0] or 'application/octet-stream'
# For security, force certain extensions to download instead of display
file_extension = os.path.splitext(filename)[1].lower()
if file_extension in {'.html', '.htm', '.js', '.css'}:
# For security, force certain mimetypes to download instead of display
if content_type in {'text/html', 'text/html-sandboxed', 'application/xhtml+xml', 'text/javascript', 'text/css'}:
content_type = 'application/octet-stream' # Forces download
return web.FileResponse(
@ -621,7 +620,7 @@ class PromptServer():
@routes.get("/queue")
async def get_queue(request):
queue_info = {}
current_queue = self.prompt_queue.get_current_queue()
current_queue = self.prompt_queue.get_current_queue_volatile()
queue_info['queue_running'] = current_queue[0]
queue_info['queue_pending'] = current_queue[1]
return web.json_response(queue_info)
@ -746,6 +745,13 @@ class PromptServer():
web.static('/templates', workflow_templates_path)
])
# Serve embedded documentation from the package
embedded_docs_path = FrontendManager.embedded_docs_path()
if embedded_docs_path:
self.app.add_routes([
web.static('/docs', embedded_docs_path)
])
self.app.add_routes([
web.static('/', self.web_root),
])
@ -782,7 +788,7 @@ class PromptServer():
if hasattr(Image, 'Resampling'):
resampling = Image.Resampling.BILINEAR
else:
resampling = Image.ANTIALIAS
resampling = Image.Resampling.LANCZOS
image = ImageOps.contain(image, (max_size, max_size), resampling)
type_num = 1

239
tests-unit/comfy_api_test/video_types_test.py Normal file
View File

@ -0,0 +1,239 @@
import pytest
import torch
import tempfile
import os
import av
import io
from fractions import Fraction
from comfy_api.input_impl.video_types import VideoFromFile, VideoFromComponents
from comfy_api.util.video_types import VideoComponents
from comfy_api.input.basic_types import AudioInput
from av.error import InvalidDataError
EPSILON = 0.0001
@pytest.fixture
def sample_images():
"""3-frame 2x2 RGB video tensor"""
return torch.rand(3, 2, 2, 3)
@pytest.fixture
def sample_audio():
"""Stereo audio with 44.1kHz sample rate"""
return AudioInput(
{
"waveform": torch.rand(1, 2, 1000),
"sample_rate": 44100,
}
)
@pytest.fixture
def video_components(sample_images, sample_audio):
"""VideoComponents with images, audio, and metadata"""
return VideoComponents(
images=sample_images,
audio=sample_audio,
frame_rate=Fraction(30),
metadata={"test": "metadata"},
)
def create_test_video(width=4, height=4, frames=3, fps=30):
"""Helper to create a temporary video file"""
tmp = tempfile.NamedTemporaryFile(suffix=".mp4", delete=False)
with av.open(tmp.name, mode="w") as container:
stream = container.add_stream("h264", rate=fps)
stream.width = width
stream.height = height
stream.pix_fmt = "yuv420p"
for i in range(frames):
frame = av.VideoFrame.from_ndarray(
torch.ones(height, width, 3, dtype=torch.uint8).numpy() * (i * 85),
format="rgb24",
)
frame = frame.reformat(format="yuv420p")
packet = stream.encode(frame)
container.mux(packet)
# Flush
packet = stream.encode(None)
container.mux(packet)
return tmp.name
@pytest.fixture
def simple_video_file():
"""4x4 video with 3 frames at 30fps"""
file_path = create_test_video()
yield file_path
os.unlink(file_path)
def test_video_from_components_get_duration(video_components):
"""Duration calculated correctly from frame count and frame rate"""
video = VideoFromComponents(video_components)
duration = video.get_duration()
expected_duration = 3.0 / 30.0
assert duration == pytest.approx(expected_duration)
def test_video_from_components_get_duration_different_frame_rates(sample_images):
"""Duration correct for different frame rates including fractional"""
# Test with 60 fps
components_60fps = VideoComponents(images=sample_images, frame_rate=Fraction(60))
video_60fps = VideoFromComponents(components_60fps)
assert video_60fps.get_duration() == pytest.approx(3.0 / 60.0)
# Test with fractional frame rate (23.976fps)
components_frac = VideoComponents(
images=sample_images, frame_rate=Fraction(24000, 1001)
)
video_frac = VideoFromComponents(components_frac)
expected_frac = 3.0 / (24000.0 / 1001.0)
assert video_frac.get_duration() == pytest.approx(expected_frac)
def test_video_from_components_get_duration_empty_video():
"""Duration is zero for empty video"""
empty_components = VideoComponents(
images=torch.zeros(0, 2, 2, 3), frame_rate=Fraction(30)
)
video = VideoFromComponents(empty_components)
assert video.get_duration() == 0.0
def test_video_from_components_get_dimensions(video_components):
"""Dimensions returned correctly from image tensor shape"""
video = VideoFromComponents(video_components)
width, height = video.get_dimensions()
assert width == 2
assert height == 2
def test_video_from_file_get_duration(simple_video_file):
"""Duration extracted from file metadata"""
video = VideoFromFile(simple_video_file)
duration = video.get_duration()
assert duration == pytest.approx(0.1, abs=0.01)
def test_video_from_file_get_dimensions(simple_video_file):
"""Dimensions read from stream without decoding frames"""
video = VideoFromFile(simple_video_file)
width, height = video.get_dimensions()
assert width == 4
assert height == 4
def test_video_from_file_bytesio_input():
"""VideoFromFile works with BytesIO input"""
buffer = io.BytesIO()
with av.open(buffer, mode="w", format="mp4") as container:
stream = container.add_stream("h264", rate=30)
stream.width = 2
stream.height = 2
stream.pix_fmt = "yuv420p"
frame = av.VideoFrame.from_ndarray(
torch.zeros(2, 2, 3, dtype=torch.uint8).numpy(), format="rgb24"
)
frame = frame.reformat(format="yuv420p")
packet = stream.encode(frame)
container.mux(packet)
packet = stream.encode(None)
container.mux(packet)
buffer.seek(0)
video = VideoFromFile(buffer)
assert video.get_dimensions() == (2, 2)
assert video.get_duration() == pytest.approx(1 / 30, abs=0.01)
def test_video_from_file_invalid_file_error():
"""InvalidDataError raised for non-video files"""
with tempfile.NamedTemporaryFile(suffix=".txt", delete=False) as tmp:
tmp.write(b"not a video file")
tmp.flush()
tmp_name = tmp.name
try:
with pytest.raises(InvalidDataError):
video = VideoFromFile(tmp_name)
video.get_dimensions()
finally:
os.unlink(tmp_name)
def test_video_from_file_audio_only_error():
"""ValueError raised for audio-only files"""
with tempfile.NamedTemporaryFile(suffix=".m4a", delete=False) as tmp:
tmp_name = tmp.name
try:
with av.open(tmp_name, mode="w") as container:
stream = container.add_stream("aac", rate=44100)
stream.sample_rate = 44100
stream.format = "fltp"
audio_data = torch.zeros(1, 1024).numpy()
audio_frame = av.AudioFrame.from_ndarray(
audio_data, format="fltp", layout="mono"
)
audio_frame.sample_rate = 44100
audio_frame.pts = 0
packet = stream.encode(audio_frame)
container.mux(packet)
for packet in stream.encode(None):
container.mux(packet)
with pytest.raises(ValueError, match="No video stream found"):
video = VideoFromFile(tmp_name)
video.get_dimensions()
finally:
os.unlink(tmp_name)
def test_single_frame_video():
"""Single frame video has correct duration"""
components = VideoComponents(
images=torch.rand(1, 10, 10, 3), frame_rate=Fraction(1)
)
video = VideoFromComponents(components)
assert video.get_duration() == 1.0
@pytest.mark.parametrize(
"frame_rate,expected_fps",
[
(Fraction(24000, 1001), 24000 / 1001),
(Fraction(30000, 1001), 30000 / 1001),
(Fraction(25, 1), 25.0),
(Fraction(50, 2), 25.0),
],
)
def test_fractional_frame_rates(frame_rate, expected_fps):
"""Duration calculated correctly for various fractional frame rates"""
components = VideoComponents(images=torch.rand(100, 4, 4, 3), frame_rate=frame_rate)
video = VideoFromComponents(components)
duration = video.get_duration()
expected_duration = 100.0 / expected_fps
assert duration == pytest.approx(expected_duration)
def test_duration_consistency(video_components):
"""get_duration() consistent with manual calculation from components"""
video = VideoFromComponents(video_components)
duration = video.get_duration()
components = video.get_components()
manual_duration = float(components.images.shape[0] / components.frame_rate)
assert duration == pytest.approx(manual_duration)

0
tests-unit/comfy_extras_test/__init__.py Normal file
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