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ComfyUI/comfy_api_nodes/nodes_rodin.py
Alexander Piskun 1579bbb52d
[Partner Nodes] add new Rodin2.5 nodes (#14051) 
* [Partner Nodes] add new Rodin2.5 nodes

Signed-off-by: bigcat88 <bigcat88@icloud.com>

* [Partner Nodes] fixed Quality Mesh Options

Signed-off-by: bigcat88 <bigcat88@icloud.com>

* [Partner Nodes] fix: remove non-supported "usdz"

Signed-off-by: bigcat88 <bigcat88@icloud.com>

* [Partner Nodes] fix: always pass seed to server

Signed-off-by: bigcat88 <bigcat88@icloud.com>

* [Partner Nodes] fix: set the default "material" value to "Shaded"

Signed-off-by: bigcat88 <bigcat88@icloud.com>

---------

Signed-off-by: bigcat88 <bigcat88@icloud.com>
2026-05-22 09:07:21 -07:00

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"""
ComfyUI X Rodin3D(Deemos) API Nodes
Rodin API docs: https://developer.hyper3d.ai/
"""
import logging
import math
import os
from inspect import cleandoc
from io import BytesIO
from typing import Any
import aiohttp
from PIL import Image
from typing_extensions import override
import folder_paths as comfy_paths
from comfy_api.latest import IO, ComfyExtension, Types
from comfy_api_nodes.apis.rodin import (
JobStatus,
Rodin3DCheckStatusRequest,
Rodin3DCheckStatusResponse,
Rodin3DDownloadRequest,
Rodin3DDownloadResponse,
Rodin3DGen25Request,
Rodin3DGenerateRequest,
Rodin3DGenerateResponse,
)
from comfy_api_nodes.util import (
ApiEndpoint,
download_url_to_bytesio,
download_url_to_file_3d,
poll_op,
sync_op,
validate_string,
)
COMMON_PARAMETERS = [
IO.Int.Input(
"Seed",
default=0,
min=0,
max=65535,
display_mode=IO.NumberDisplay.number,
optional=True,
),
IO.Combo.Input("Material_Type", options=["PBR", "Shaded"], default="PBR", optional=True),
IO.Combo.Input(
"Polygon_count",
options=["4K-Quad", "8K-Quad", "18K-Quad", "50K-Quad", "200K-Triangle"],
default="18K-Quad",
optional=True,
),
]
_QUALITY_MESH_OPTIONS: dict[str, tuple[str, int]] = {
"4K-Quad": ("Quad", 4000),
"8K-Quad": ("Quad", 8000),
"18K-Quad": ("Quad", 18000),
"50K-Quad": ("Quad", 50000),
"200K-Quad": ("Quad", 200000),
"2K-Triangle": ("Raw", 2000),
"20K-Triangle": ("Raw", 20000),
"150K-Triangle": ("Raw", 150000),
"200K-Triangle": ("Raw", 200000),
"500K-Triangle": ("Raw", 500000),
"1M-Triangle": ("Raw", 1000000),
}
def get_quality_mode(poly_count: str) -> tuple[str, int]:
"""Map a polygon-count preset like '18K-Quad' to (mesh_mode, quality_override).
Falls back to ('Quad', 18000) for unknown labels; legacy parity.
"""
return _QUALITY_MESH_OPTIONS.get(poly_count, ("Quad", 18000))
def tensor_to_filelike(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 = BytesIO()
image.save(img_byte_arr, format="PNG") # PNG is used for lossless compression
img_byte_arr.seek(0)
return img_byte_arr
async def create_generate_task(
cls: type[IO.ComfyNode],
images=None,
seed=1,
material="PBR",
quality_override=18000,
tier="Regular",
mesh_mode="Quad",
ta_pose: bool = False,
):
if images is 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.")
response = await sync_op(
cls,
ApiEndpoint(path="/proxy/rodin/api/v2/rodin", method="POST"),
response_model=Rodin3DGenerateResponse,
data=Rodin3DGenerateRequest(
seed=seed,
tier=tier,
material=material,
quality_override=quality_override,
mesh_mode=mesh_mode,
TAPose=ta_pose,
),
files=[
("images", open(image, "rb") if isinstance(image, str) else tensor_to_filelike(image))
for image in images
if image is not None
],
content_type="multipart/form-data",
)
if hasattr(response, "error"):
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("[ Rodin3D API - Submit Jobs ] UUID: %s", task_uuid)
return task_uuid, subscription_key
def check_rodin_status(response: Rodin3DCheckStatusResponse) -> str:
all_done = all(job.status == JobStatus.Done for job in response.jobs)
status_list = [str(job.status) for job in response.jobs]
logging.info("[ Rodin3D API - CheckStatus ] Generate Status: %s", status_list)
if any(job.status == JobStatus.Failed for job in response.jobs):
logging.error("[ Rodin3D API - CheckStatus ] Generate Failed: %s, Please try again.", status_list)
raise Exception("[ Rodin3D API ] Generate Failed, Please Try again.")
if all_done:
return "DONE"
return "Generating"
def extract_progress(response: Rodin3DCheckStatusResponse) -> int | None:
if not response.jobs:
return None
completed_count = sum(1 for job in response.jobs if job.status == JobStatus.Done)
return int((completed_count / len(response.jobs)) * 100)
async def poll_for_task_status(subscription_key: str, cls: type[IO.ComfyNode]) -> Rodin3DCheckStatusResponse:
logging.info("[ Rodin3D API - CheckStatus ] Generate Start!")
return await poll_op(
cls,
ApiEndpoint(path="/proxy/rodin/api/v2/status", method="POST"),
response_model=Rodin3DCheckStatusResponse,
data=Rodin3DCheckStatusRequest(subscription_key=subscription_key),
status_extractor=check_rodin_status,
progress_extractor=extract_progress,
)
async def get_rodin_download_list(uuid: str, cls: type[IO.ComfyNode]) -> Rodin3DDownloadResponse:
logging.info("[ Rodin3D API - Downloading ] Generate Successfully!")
return await sync_op(
cls,
ApiEndpoint(path="/proxy/rodin/api/v2/download", method="POST"),
response_model=Rodin3DDownloadResponse,
data=Rodin3DDownloadRequest(task_uuid=uuid),
monitor_progress=False,
)
async def download_files(url_list, task_uuid: str) -> tuple[str | None, Types.File3D | None]:
result_folder_name = f"Rodin3D_{task_uuid}"
save_path = os.path.join(comfy_paths.get_output_directory(), result_folder_name)
os.makedirs(save_path, exist_ok=True)
model_file_path = None
file_3d = None
for i in url_list.items:
file_path = os.path.join(save_path, i.name)
if i.name.lower().endswith(".glb"):
model_file_path = os.path.join(result_folder_name, i.name)
file_3d = await download_url_to_file_3d(i.url, "glb")
# Save to disk for backward compatibility
with open(file_path, "wb") as f:
f.write(file_3d.get_bytes())
else:
await download_url_to_bytesio(i.url, file_path)
return model_file_path, file_3d
class Rodin3D_Regular(IO.ComfyNode):
"""Generate 3D Assets using Rodin API"""
@classmethod
def define_schema(cls) -> IO.Schema:
return IO.Schema(
node_id="Rodin3D_Regular",
display_name="Rodin 3D Generate - Regular Generate",
category="api node/3d/Rodin",
description=cleandoc(cls.__doc__ or ""),
inputs=[
IO.Image.Input("Images"),
*COMMON_PARAMETERS,
],
outputs=[
IO.String.Output(display_name="3D Model Path"), # for backward compatibility only
IO.File3DGLB.Output(display_name="GLB"),
],
hidden=[
IO.Hidden.auth_token_comfy_org,
IO.Hidden.api_key_comfy_org,
IO.Hidden.unique_id,
],
is_api_node=True,
price_badge=IO.PriceBadge(
expr="""{"type":"usd","usd":0.4}""",
),
)
@classmethod
async def execute(
cls,
Images,
Seed,
Material_Type,
Polygon_count,
) -> IO.NodeOutput:
tier = "Regular"
num_images = Images.shape[0]
m_images = []
for i in range(num_images):
m_images.append(Images[i])
mesh_mode, quality_override = get_quality_mode(Polygon_count)
task_uuid, subscription_key = await create_generate_task(
cls,
images=m_images,
seed=Seed,
material=Material_Type,
quality_override=quality_override,
tier=tier,
mesh_mode=mesh_mode,
)
await poll_for_task_status(subscription_key, cls)
download_list = await get_rodin_download_list(task_uuid, cls)
model_path, file_3d = await download_files(download_list, task_uuid)
return IO.NodeOutput(model_path, file_3d)
class Rodin3D_Detail(IO.ComfyNode):
"""Generate 3D Assets using Rodin API"""
@classmethod
def define_schema(cls) -> IO.Schema:
return IO.Schema(
node_id="Rodin3D_Detail",
display_name="Rodin 3D Generate - Detail Generate",
category="api node/3d/Rodin",
description=cleandoc(cls.__doc__ or ""),
inputs=[
IO.Image.Input("Images"),
*COMMON_PARAMETERS,
],
outputs=[
IO.String.Output(display_name="3D Model Path"), # for backward compatibility only
IO.File3DGLB.Output(display_name="GLB"),
],
hidden=[
IO.Hidden.auth_token_comfy_org,
IO.Hidden.api_key_comfy_org,
IO.Hidden.unique_id,
],
is_api_node=True,
price_badge=IO.PriceBadge(
expr="""{"type":"usd","usd":0.4}""",
),
)
@classmethod
async def execute(
cls,
Images,
Seed,
Material_Type,
Polygon_count,
) -> IO.NodeOutput:
tier = "Detail"
num_images = Images.shape[0]
m_images = []
for i in range(num_images):
m_images.append(Images[i])
mesh_mode, quality_override = get_quality_mode(Polygon_count)
task_uuid, subscription_key = await create_generate_task(
cls,
images=m_images,
seed=Seed,
material=Material_Type,
quality_override=quality_override,
tier=tier,
mesh_mode=mesh_mode,
)
await poll_for_task_status(subscription_key, cls)
download_list = await get_rodin_download_list(task_uuid, cls)
model_path, file_3d = await download_files(download_list, task_uuid)
return IO.NodeOutput(model_path, file_3d)
class Rodin3D_Smooth(IO.ComfyNode):
"""Generate 3D Assets using Rodin API"""
@classmethod
def define_schema(cls) -> IO.Schema:
return IO.Schema(
node_id="Rodin3D_Smooth",
display_name="Rodin 3D Generate - Smooth Generate",
category="api node/3d/Rodin",
description=cleandoc(cls.__doc__ or ""),
inputs=[
IO.Image.Input("Images"),
*COMMON_PARAMETERS,
],
outputs=[
IO.String.Output(display_name="3D Model Path"), # for backward compatibility only
IO.File3DGLB.Output(display_name="GLB"),
],
hidden=[
IO.Hidden.auth_token_comfy_org,
IO.Hidden.api_key_comfy_org,
IO.Hidden.unique_id,
],
is_api_node=True,
price_badge=IO.PriceBadge(
expr="""{"type":"usd","usd":0.4}""",
),
)
@classmethod
async def execute(
cls,
Images,
Seed,
Material_Type,
Polygon_count,
) -> IO.NodeOutput:
num_images = Images.shape[0]
m_images = []
for i in range(num_images):
m_images.append(Images[i])
mesh_mode, quality_override = get_quality_mode(Polygon_count)
task_uuid, subscription_key = await create_generate_task(
cls,
images=m_images,
seed=Seed,
material=Material_Type,
quality_override=quality_override,
tier="Smooth",
mesh_mode=mesh_mode,
)
await poll_for_task_status(subscription_key, cls)
download_list = await get_rodin_download_list(task_uuid, cls)
model_path, file_3d = await download_files(download_list, task_uuid)
return IO.NodeOutput(model_path, file_3d)
class Rodin3D_Sketch(IO.ComfyNode):
"""Generate 3D Assets using Rodin API"""
@classmethod
def define_schema(cls) -> IO.Schema:
return IO.Schema(
node_id="Rodin3D_Sketch",
display_name="Rodin 3D Generate - Sketch Generate",
category="api node/3d/Rodin",
description=cleandoc(cls.__doc__ or ""),
inputs=[
IO.Image.Input("Images"),
IO.Int.Input(
"Seed",
default=0,
min=0,
max=65535,
display_mode=IO.NumberDisplay.number,
optional=True,
),
],
outputs=[
IO.String.Output(display_name="3D Model Path"), # for backward compatibility only
IO.File3DGLB.Output(display_name="GLB"),
],
hidden=[
IO.Hidden.auth_token_comfy_org,
IO.Hidden.api_key_comfy_org,
IO.Hidden.unique_id,
],
is_api_node=True,
price_badge=IO.PriceBadge(
expr="""{"type":"usd","usd":0.4}""",
),
)
@classmethod
async def execute(
cls,
Images,
Seed,
) -> IO.NodeOutput:
num_images = Images.shape[0]
m_images = []
for i in range(num_images):
m_images.append(Images[i])
task_uuid, subscription_key = await create_generate_task(
cls,
images=m_images,
seed=Seed,
material="PBR",
quality_override=18000,
tier="Sketch",
mesh_mode="Quad",
)
await poll_for_task_status(subscription_key, cls)
download_list = await get_rodin_download_list(task_uuid, cls)
model_path, file_3d = await download_files(download_list, task_uuid)
return IO.NodeOutput(model_path, file_3d)
class Rodin3D_Gen2(IO.ComfyNode):
"""Generate 3D Assets using Rodin API"""
@classmethod
def define_schema(cls) -> IO.Schema:
return IO.Schema(
node_id="Rodin3D_Gen2",
display_name="Rodin 3D Generate - Gen-2 Generate",
category="api node/3d/Rodin",
description=cleandoc(cls.__doc__ or ""),
inputs=[
IO.Image.Input("Images"),
IO.Int.Input(
"Seed",
default=0,
min=0,
max=65535,
display_mode=IO.NumberDisplay.number,
optional=True,
),
IO.Combo.Input("Material_Type", options=["PBR", "Shaded"], default="PBR", optional=True),
IO.Combo.Input(
"Polygon_count",
options=[
"4K-Quad",
"8K-Quad",
"18K-Quad",
"50K-Quad",
"2K-Triangle",
"20K-Triangle",
"150K-Triangle",
"500K-Triangle",
],
default="500K-Triangle",
optional=True,
),
IO.Boolean.Input("TAPose", default=False, advanced=True),
],
outputs=[
IO.String.Output(display_name="3D Model Path"), # for backward compatibility only
IO.File3DGLB.Output(display_name="GLB"),
],
hidden=[
IO.Hidden.auth_token_comfy_org,
IO.Hidden.api_key_comfy_org,
IO.Hidden.unique_id,
],
is_api_node=True,
price_badge=IO.PriceBadge(
expr="""{"type":"usd","usd":0.4}""",
),
)
@classmethod
async def execute(
cls,
Images,
Seed,
Material_Type,
Polygon_count,
TAPose,
) -> IO.NodeOutput:
tier = "Gen-2"
num_images = Images.shape[0]
m_images = []
for i in range(num_images):
m_images.append(Images[i])
mesh_mode, quality_override = get_quality_mode(Polygon_count)
task_uuid, subscription_key = await create_generate_task(
cls,
images=m_images,
seed=Seed,
material=Material_Type,
quality_override=quality_override,
tier=tier,
mesh_mode=mesh_mode,
ta_pose=TAPose,
)
await poll_for_task_status(subscription_key, cls)
download_list = await get_rodin_download_list(task_uuid, cls)
model_path, file_3d = await download_files(download_list, task_uuid)
return IO.NodeOutput(model_path, file_3d)
def _rodin_multipart_parser(data: dict[str, Any]) -> aiohttp.FormData:
"""Convert a Rodin request dict to an aiohttp form, fixing bool/list serialization.
Booleans --> "true"/"false". Lists --> one field per element.
"""
form = aiohttp.FormData(default_to_multipart=True)
for key, value in data.items():
if value is None:
continue
if isinstance(value, bool):
form.add_field(key, "true" if value else "false")
elif isinstance(value, list):
for item in value:
form.add_field(key, str(item))
elif isinstance(value, (bytes, bytearray)):
form.add_field(key, value)
else:
form.add_field(key, str(value))
return form
async def _create_gen25_task(
cls: type[IO.ComfyNode],
request: Rodin3DGen25Request,
images: list | None,
) -> tuple[str, str]:
"""Submit a Gen-2.5 generate job; returns (task_uuid, subscription_key)."""
if images is not None and len(images) > 5:
raise ValueError("Rodin Gen-2.5 supports at most 5 input images.")
files = None
if images:
files = [
(
"images",
open(image, "rb") if isinstance(image, str) else tensor_to_filelike(image),
)
for image in images
if image is not None
]
response = await sync_op(
cls,
ApiEndpoint(path="/proxy/rodin/api/v2/rodin", method="POST"),
response_model=Rodin3DGenerateResponse,
data=request,
files=files,
content_type="multipart/form-data",
multipart_parser=_rodin_multipart_parser,
)
if not response.uuid or not response.jobs or not response.jobs.subscription_key:
raise RuntimeError(f"Rodin Gen-2.5 submit failed: message={response.message!r}")
return response.uuid, response.jobs.subscription_key
_PREVIEWABLE_3D_EXTS = {".glb", ".obj", ".fbx", ".stl", ".gltf"}
async def _download_gen25_files(
download_list: Rodin3DDownloadResponse,
task_uuid: str,
geometry_file_format: str,
) -> Types.File3D | None:
"""Download every file in the list; return the File3D matching the chosen format."""
folder_name = f"Rodin3D_Gen25_{task_uuid}"
save_dir = os.path.join(comfy_paths.get_output_directory(), folder_name)
os.makedirs(save_dir, exist_ok=True)
target_ext = f".{geometry_file_format.lower().lstrip('.')}"
file_3d: Types.File3D | None = None
for item in download_list.items:
file_path = os.path.join(save_dir, item.name)
ext = os.path.splitext(item.name.lower())[1]
# Prefer the file matching the user's chosen format; fall back below.
if file_3d is None and ext == target_ext and ext in _PREVIEWABLE_3D_EXTS:
file_3d = await download_url_to_file_3d(item.url, target_ext.lstrip("."))
with open(file_path, "wb") as f:
f.write(file_3d.get_bytes())
continue
await download_url_to_bytesio(item.url, file_path)
# If the chosen format wasn't found, surface any model file we did get.
if file_3d is None:
for item in download_list.items:
ext = os.path.splitext(item.name.lower())[1]
if ext in _PREVIEWABLE_3D_EXTS:
file_3d = await download_url_to_file_3d(item.url, ext.lstrip("."))
break
return file_3d
_MODE_REGULAR = "Regular"
_MODE_FAST = "Fast"
_MODE_EXTREME_HIGH = "Extreme-High"
_REGULAR_POLY_OPTIONS = [
"Default",
"4K-Quad",
"8K-Quad",
"18K-Quad",
"50K-Quad",
"2K-Triangle",
"20K-Triangle",
"150K-Triangle",
"500K-Triangle",
"1M-Triangle",
]
_TEXTURE_MODE_OPTIONS = ["Default", "legacy", "extreme-low", "low", "medium", "high"]
_GEOMETRY_FORMAT_OPTIONS = ["glb", "fbx", "obj", "stl"]
_MATERIAL_OPTIONS = ["PBR", "Shaded", "All", "None"]
def _build_mode_input(name: str = "mode") -> IO.DynamicCombo.Input:
return IO.DynamicCombo.Input(
name,
options=[
IO.DynamicCombo.Option(
_MODE_REGULAR,
[
IO.Combo.Input(
"tier",
options=["Gen-2.5-Low", "Gen-2.5-Medium", "Gen-2.5-High"],
default="Gen-2.5-High",
tooltip="Quality tier. Higher tiers produce higher-fidelity geometry.",
),
IO.Combo.Input(
"polygon_count",
options=_REGULAR_POLY_OPTIONS,
default="Default",
tooltip="Preset face count. 'Default' uses the server's default for the selected tier.",
),
IO.Boolean.Input(
"creative",
default=False,
tooltip="Creative mode (Medium/High only). Enhances generative robustness.",
),
],
),
IO.DynamicCombo.Option(
_MODE_FAST,
[
IO.Combo.Input(
"tier",
options=[
"Gen-2.5-Extreme-Low",
"Gen-2.5-Low",
"Gen-2.5-Medium",
"Gen-2.5-High",
],
default="Gen-2.5-Low",
),
IO.Int.Input(
"mesh_faces",
default=20000,
min=1000,
max=20000,
display_mode=IO.NumberDisplay.number,
tooltip="Mesh face count (1K-20K in Fast mode).",
),
],
),
IO.DynamicCombo.Option(
_MODE_EXTREME_HIGH,
[
IO.Combo.Input("mesh_mode", options=["Raw", "Quad"], default="Raw"),
IO.Int.Input(
"mesh_faces",
default=1000000,
min=20000,
max=2000000,
display_mode=IO.NumberDisplay.number,
tooltip=(
"Mesh face count. Raw mode: 20K-2M. "
"Quad mode: keep under 200K (upstream may reject higher values)."
),
),
IO.Boolean.Input(
"is_micro",
default=False,
tooltip="Enable micro detail (Extreme-High only).",
),
IO.Boolean.Input(
"creative",
default=False,
tooltip="Creative mode. Enhances generative robustness.",
),
],
),
],
tooltip=(
"Generation mode. Regular = balanced. Fast = 1K-20K faces for rapid prototyping. "
"Extreme-High = 20K-2M faces with optional micro details."
),
)
def _build_common_inputs(*, include_image_only: bool) -> list:
inputs: list = [
IO.Combo.Input("material", options=_MATERIAL_OPTIONS, default="Shaded"),
IO.Combo.Input("geometry_file_format", options=_GEOMETRY_FORMAT_OPTIONS, default="glb"),
IO.Combo.Input(
"texture_mode",
options=_TEXTURE_MODE_OPTIONS,
default="Default",
optional=True,
tooltip="Texture quality preset. 'Default' uses the server's default for the selected tier.",
),
IO.Int.Input(
"seed",
default=0,
min=0,
max=65535,
display_mode=IO.NumberDisplay.number,
control_after_generate=True,
optional=True,
),
IO.Boolean.Input(
"TAPose", default=False, optional=True, advanced=True, tooltip="T/A pose for human-like models."
),
IO.Boolean.Input(
"hd_texture", default=False, optional=True, advanced=True, tooltip="High-quality texture enhancement."
),
IO.Boolean.Input(
"texture_delight",
default=False,
optional=True,
advanced=True,
tooltip="Remove baked lighting from textures.",
),
]
if include_image_only:
inputs.append(
IO.Boolean.Input(
"use_original_alpha",
default=False,
optional=True,
advanced=True,
tooltip="Preserve image transparency.",
)
)
inputs.extend(
[
IO.Boolean.Input(
"addon_highpack",
default=False,
optional=True,
advanced=True,
tooltip="HighPack addon: 4K textures and ~16x faces in Quad mode.",
),
IO.Int.Input(
"bbox_width",
default=0,
min=0,
max=300,
display_mode=IO.NumberDisplay.number,
optional=True,
advanced=True,
tooltip="Bounding-box width (Y axis). Set to 0 with the others to skip bbox.",
),
IO.Int.Input(
"bbox_height",
default=0,
min=0,
max=300,
display_mode=IO.NumberDisplay.number,
optional=True,
advanced=True,
tooltip="Bounding-box height (Z axis).",
),
IO.Int.Input(
"bbox_length",
default=0,
min=0,
max=300,
display_mode=IO.NumberDisplay.number,
optional=True,
advanced=True,
tooltip="Bounding-box length (X axis).",
),
IO.Int.Input(
"height_cm",
default=0,
min=0,
max=10000,
display_mode=IO.NumberDisplay.number,
optional=True,
advanced=True,
tooltip="Approximate model height in centimeters (0 to skip).",
),
]
)
return inputs
_PRICE_EXPR = """
(
$baseCredits := widgets.mode = "extreme-high" ? 1.0 : 0.5;
$addonCredits := widgets.addon_highpack ? 1.0 : 0.0;
$total := ($baseCredits * 1.5) + ($addonCredits * 0.8);
{"type":"usd","usd": $total}
)
"""
def _resolve_mode_params(mode_input: dict) -> dict:
"""Translate the DynamicCombo `mode` payload into Gen-2.5 request fields.
Returns a dict with: tier, quality_override, mesh_mode, geometry_instruct_mode, is_micro.
Missing keys mean "do not send" (so we don't override server defaults).
"""
selected = mode_input["mode"]
out: dict = {}
if selected == _MODE_REGULAR:
out["tier"] = mode_input["tier"]
polygon = mode_input.get("polygon_count", "Default")
if polygon != "Default":
mesh_mode, faces = get_quality_mode(polygon)
out["mesh_mode"] = mesh_mode
out["quality_override"] = faces
if mode_input.get("creative"):
out["geometry_instruct_mode"] = "creative"
elif selected == _MODE_FAST:
out["tier"] = mode_input["tier"]
out["mesh_mode"] = "Raw"
out["quality_override"] = int(mode_input["mesh_faces"])
elif selected == _MODE_EXTREME_HIGH:
out["tier"] = "Gen-2.5-Extreme-High"
out["mesh_mode"] = mode_input["mesh_mode"]
out["quality_override"] = int(mode_input["mesh_faces"])
if mode_input.get("is_micro"):
out["is_micro"] = True
if mode_input.get("creative"):
out["geometry_instruct_mode"] = "creative"
return out
def _build_request(
*,
mode_input: dict,
material: str,
geometry_file_format: str,
texture_mode: str,
seed: int,
TAPose: bool,
hd_texture: bool,
texture_delight: bool,
addon_highpack: bool,
bbox_width: int,
bbox_height: int,
bbox_length: int,
height_cm: int,
prompt: str | None = None,
use_original_alpha: bool = False,
) -> Rodin3DGen25Request:
mode_params = _resolve_mode_params(mode_input)
bbox = None
if bbox_width and bbox_height and bbox_length:
bbox = [bbox_width, bbox_height, bbox_length]
return Rodin3DGen25Request(
tier=mode_params["tier"],
prompt=prompt or None,
seed=seed,
material=material,
geometry_file_format=geometry_file_format,
texture_mode=None if texture_mode == "Default" else texture_mode,
mesh_mode=mode_params.get("mesh_mode"),
quality_override=mode_params.get("quality_override"),
geometry_instruct_mode=mode_params.get("geometry_instruct_mode"),
bbox_condition=bbox,
height=height_cm or None,
TAPose=TAPose or None,
hd_texture=hd_texture or None,
texture_delight=texture_delight or None,
is_micro=mode_params.get("is_micro"),
use_original_alpha=use_original_alpha or None,
addons=["HighPack"] if addon_highpack else None,
)
class Rodin3D_Gen25_Image(IO.ComfyNode):
@classmethod
def define_schema(cls) -> IO.Schema:
return IO.Schema(
node_id="Rodin3D_Gen25_Image",
display_name="Rodin 3D Gen-2.5 - Image to 3D",
category="api node/3d/Rodin",
description=(
"Generate a 3D model from 1-5 reference images via Rodin Gen-2.5. "
"Pick a mode (Fast / Regular / Extreme-High) to tune quality vs. cost."
),
inputs=[
IO.Autogrow.Input(
"images",
template=IO.Autogrow.TemplatePrefix(IO.Image.Input("image"), prefix="image", min=1, max=5),
tooltip="1-5 images. The first image is used for materials when multi-view.",
),
_build_mode_input(),
*_build_common_inputs(include_image_only=True),
],
outputs=[IO.File3DAny.Output(display_name="model_file")],
hidden=[
IO.Hidden.auth_token_comfy_org,
IO.Hidden.api_key_comfy_org,
IO.Hidden.unique_id,
],
is_api_node=True,
price_badge=IO.PriceBadge(
depends_on=IO.PriceBadgeDepends(widgets=["mode", "addon_highpack"]),
expr=_PRICE_EXPR,
),
)
@classmethod
async def execute(
cls,
images: IO.Autogrow.Type,
mode: dict,
material: str,
geometry_file_format: str,
texture_mode: str,
seed: int,
TAPose: bool,
hd_texture: bool,
texture_delight: bool,
use_original_alpha: bool,
addon_highpack: bool,
bbox_width: int,
bbox_height: int,
bbox_length: int,
height_cm: int,
) -> IO.NodeOutput:
image_tensors = [img for img in images.values() if img is not None]
if not image_tensors:
raise ValueError("Rodin Gen-2.5 Image-to-3D requires at least one image.")
# Flatten multi-image tensors into individual frames; the API accepts each as a separate part.
flat_images: list = []
for tensor in image_tensors:
if hasattr(tensor, "shape") and len(tensor.shape) == 4:
for i in range(tensor.shape[0]):
flat_images.append(tensor[i])
else:
flat_images.append(tensor)
if len(flat_images) > 5:
raise ValueError(f"Rodin Gen-2.5 accepts at most 5 images; received {len(flat_images)}.")
request = _build_request(
mode_input=mode,
material=material,
geometry_file_format=geometry_file_format,
texture_mode=texture_mode,
seed=seed,
TAPose=TAPose,
hd_texture=hd_texture,
texture_delight=texture_delight,
addon_highpack=addon_highpack,
bbox_width=bbox_width,
bbox_height=bbox_height,
bbox_length=bbox_length,
height_cm=height_cm,
prompt=None,
use_original_alpha=use_original_alpha,
)
task_uuid, subscription_key = await _create_gen25_task(cls, request, flat_images)
await poll_for_task_status(subscription_key, cls)
download_list = await get_rodin_download_list(task_uuid, cls)
file_3d = await _download_gen25_files(download_list, task_uuid, geometry_file_format)
return IO.NodeOutput(file_3d)
class Rodin3D_Gen25_Text(IO.ComfyNode):
@classmethod
def define_schema(cls) -> IO.Schema:
return IO.Schema(
node_id="Rodin3D_Gen25_Text",
display_name="Rodin 3D Gen-2.5 - Text to 3D",
category="api node/3d/Rodin",
description=(
"Generate a 3D model from a text prompt via Rodin Gen-2.5. "
"Pick a mode (Fast / Regular / Extreme-High) to tune quality vs. cost."
),
inputs=[
IO.String.Input(
"prompt",
multiline=True,
default="",
tooltip="Text prompt for the 3D model.",
),
_build_mode_input(),
*_build_common_inputs(include_image_only=False),
],
outputs=[IO.File3DAny.Output(display_name="model_file")],
hidden=[
IO.Hidden.auth_token_comfy_org,
IO.Hidden.api_key_comfy_org,
IO.Hidden.unique_id,
],
is_api_node=True,
price_badge=IO.PriceBadge(
depends_on=IO.PriceBadgeDepends(widgets=["mode", "addon_highpack"]),
expr=_PRICE_EXPR,
),
)
@classmethod
async def execute(
cls,
prompt: str,
mode: dict,
material: str,
geometry_file_format: str,
texture_mode: str,
seed: int,
TAPose: bool,
hd_texture: bool,
texture_delight: bool,
addon_highpack: bool,
bbox_width: int,
bbox_height: int,
bbox_length: int,
height_cm: int,
) -> IO.NodeOutput:
validate_string(prompt, field_name="prompt", min_length=1, max_length=2500)
request = _build_request(
mode_input=mode,
material=material,
geometry_file_format=geometry_file_format,
texture_mode=texture_mode,
seed=seed,
TAPose=TAPose,
hd_texture=hd_texture,
texture_delight=texture_delight,
addon_highpack=addon_highpack,
bbox_width=bbox_width,
bbox_height=bbox_height,
bbox_length=bbox_length,
height_cm=height_cm,
prompt=prompt,
)
task_uuid, subscription_key = await _create_gen25_task(cls, request, images=None)
await poll_for_task_status(subscription_key, cls)
download_list = await get_rodin_download_list(task_uuid, cls)
file_3d = await _download_gen25_files(download_list, task_uuid, geometry_file_format)
return IO.NodeOutput(file_3d)
class Rodin3DExtension(ComfyExtension):
@override
async def get_node_list(self) -> list[type[IO.ComfyNode]]:
return [
Rodin3D_Regular,
Rodin3D_Detail,
Rodin3D_Smooth,
Rodin3D_Sketch,
Rodin3D_Gen2,
Rodin3D_Gen25_Image,
Rodin3D_Gen25_Text,
]
async def comfy_entrypoint() -> Rodin3DExtension:
return Rodin3DExtension()
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