IOPaint/iopaint/plugins/segment_anything2/utils/misc.py
2024-08-12 10:11:34 +08:00

91 lines
3.5 KiB
Python

# Copyright (c) Meta Platforms, Inc. and affiliates.
# All rights reserved.
# This source code is licensed under the license found in the
# LICENSE file in the root directory of this source tree.
import warnings
import numpy as np
import torch
from PIL import Image
def get_sdpa_settings():
if torch.cuda.is_available():
old_gpu = torch.cuda.get_device_properties(0).major < 7
# only use Flash Attention on Ampere (8.0) or newer GPUs
use_flash_attn = torch.cuda.get_device_properties(0).major >= 8
if not use_flash_attn:
warnings.warn(
"Flash Attention is disabled as it requires a GPU with Ampere (8.0) CUDA capability.",
category=UserWarning,
stacklevel=2,
)
# keep math kernel for PyTorch versions before 2.2 (Flash Attention v2 is only
# available on PyTorch 2.2+, while Flash Attention v1 cannot handle all cases)
pytorch_version = tuple(int(v) for v in torch.__version__.split(".")[:2])
if pytorch_version < (2, 2):
warnings.warn(
f"You are using PyTorch {torch.__version__} without Flash Attention v2 support. "
"Consider upgrading to PyTorch 2.2+ for Flash Attention v2 (which could be faster).",
category=UserWarning,
stacklevel=2,
)
math_kernel_on = pytorch_version < (2, 2) or not use_flash_attn
else:
old_gpu = True
use_flash_attn = False
math_kernel_on = True
return old_gpu, use_flash_attn, math_kernel_on
def mask_to_box(masks: torch.Tensor):
"""
compute bounding box given an input mask
Inputs:
- masks: [B, 1, H, W] boxes, dtype=torch.Tensor
Returns:
- box_coords: [B, 1, 4], contains (x, y) coordinates of top left and bottom right box corners, dtype=torch.Tensor
"""
B, _, h, w = masks.shape
device = masks.device
xs = torch.arange(w, device=device, dtype=torch.int32)
ys = torch.arange(h, device=device, dtype=torch.int32)
grid_xs, grid_ys = torch.meshgrid(xs, ys, indexing="xy")
grid_xs = grid_xs[None, None, ...].expand(B, 1, h, w)
grid_ys = grid_ys[None, None, ...].expand(B, 1, h, w)
min_xs, _ = torch.min(torch.where(masks, grid_xs, w).flatten(-2), dim=-1)
max_xs, _ = torch.max(torch.where(masks, grid_xs, -1).flatten(-2), dim=-1)
min_ys, _ = torch.min(torch.where(masks, grid_ys, h).flatten(-2), dim=-1)
max_ys, _ = torch.max(torch.where(masks, grid_ys, -1).flatten(-2), dim=-1)
bbox_coords = torch.stack((min_xs, min_ys, max_xs, max_ys), dim=-1)
return bbox_coords
def _load_img_as_tensor(img_path, image_size):
img_pil = Image.open(img_path)
img_np = np.array(img_pil.convert("RGB").resize((image_size, image_size)))
if img_np.dtype == np.uint8: # np.uint8 is expected for JPEG images
img_np = img_np / 255.0
else:
raise RuntimeError(f"Unknown image dtype: {img_np.dtype} on {img_path}")
img = torch.from_numpy(img_np).permute(2, 0, 1)
video_width, video_height = img_pil.size # the original video size
return img, video_height, video_width
def concat_points(old_point_inputs, new_points, new_labels):
"""Add new points and labels to previous point inputs (add at the end)."""
if old_point_inputs is None:
points, labels = new_points, new_labels
else:
points = torch.cat([old_point_inputs["point_coords"], new_points], dim=1)
labels = torch.cat([old_point_inputs["point_labels"], new_labels], dim=1)
return {"point_coords": points, "point_labels": labels}