把densepose官方给的代码做了简化,去除了各种封装和log,只保留核心功能。
使用之前先pip安装densepose包
pip install git+https://github.com/facebookresearch/detectron2@main#subdirectory=projects/DensePose代码从 densepose/apply_net.py 中抽取:
import torch
import cv2
import numpy as np
import sys
import os
from detectron2.config import CfgNode, get_cfg
from detectron2.data.detection_utils import read_image
from detectron2.engine.defaults import DefaultPredictor
from detectron2.structures.instances import Instances
from detectron2.utils.logger import setup_logger
from densepose import add_densepose_config
from densepose.structures import DensePoseChartPredictorOutput, DensePoseEmbeddingPredictorOutput
from densepose.utils.logger import verbosity_to_level
from densepose.vis.base import CompoundVisualizer
from densepose.vis.bounding_box import ScoredBoundingBoxVisualizer
from densepose.vis.densepose_outputs_vertex import (
DensePoseOutputsTextureVisualizer,
DensePoseOutputsVertexVisualizer,
get_texture_atlases,
)
from densepose.vis.densepose_results import (
DensePoseResultsContourVisualizer,
DensePoseResultsFineSegmentationVisualizer,
DensePoseResultsUVisualizer,
DensePoseResultsVVisualizer,
)
from densepose.vis.densepose_results_textures import (
DensePoseResultsVisualizerWithTexture,
get_texture_atlas,
)
from densepose.vis.extractor import (
CompoundExtractor,
DensePoseOutputsExtractor,
DensePoseResultExtractor,
create_extractor,
)
from typing import Any, Dict, List
from types import SimpleNamespace
def setup_config(config_fpath: str, model_fpath: str, args, opts: List[str]):
cfg = get_cfg()
add_densepose_config(cfg)
cfg.merge_from_file(config_fpath)
cfg.merge_from_list(args.opts)
if opts:
cfg.merge_from_list(opts)
cfg.MODEL.WEIGHTS = model_fpath
cfg.freeze()
return cfg
def create_context(args, cfg: CfgNode) -> Dict[str, Any]:
VISUALIZERS = {
"dp_contour": DensePoseResultsContourVisualizer,
"dp_segm": DensePoseResultsFineSegmentationVisualizer,
"dp_u": DensePoseResultsUVisualizer,
"dp_v": DensePoseResultsVVisualizer,
"dp_iuv_texture": DensePoseResultsVisualizerWithTexture,
"dp_cse_texture": DensePoseOutputsTextureVisualizer,
"dp_vertex": DensePoseOutputsVertexVisualizer,
"bbox": ScoredBoundingBoxVisualizer,
}
vis_specs = ['dp_segm'] #args.visualizations.split(",")
visualizers = []
extractors = []
for vis_spec in vis_specs:
texture_atlas = get_texture_atlas(args.texture_atlas)
texture_atlases_dict = get_texture_atlases(args.texture_atlases_map)
vis = VISUALIZERS[vis_spec](
cfg=cfg,
texture_atlas=texture_atlas,
texture_atlases_dict=texture_atlases_dict,
)
visualizers.append(vis)
extractor = create_extractor(vis)
extractors.append(extractor)
visualizer = CompoundVisualizer(visualizers)
extractor = CompoundExtractor(extractors)
context = {
"extractor": extractor,
"visualizer": visualizer,
"out_fname": args.output,
"entry_idx": 0,
}
return context
'''
image: BGR
'''
def densepose_iuv(image):
args = SimpleNamespace()
args.cfg = '/mnt/d/Code/detectron2/projects/DensePose/configs/densepose_rcnn_R_50_FPN_s1x.yaml'
args.input = 'a.jpg'
args.min_score = 0.8
args.model = '/mnt/d/model_final_162be9.pkl'
args.nms_thresh = None
args.opts = []
args.output = 'a_out.jpg'
args.texture_atlas = None
args.texture_atlases_map = None
args.verbosity = 1
args.visualize = 'bbox,dp_segm'
#inference
opts = []
cfg = setup_config(args.cfg, args.model, args, opts)
context = create_context(args, cfg)
predictor = DefaultPredictor(cfg)
with torch.no_grad():
outputs = predictor(image)['instances']
visualizer = context["visualizer"]
extractor = context["extractor"]
image = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
image = np.tile(image[:, :, np.newaxis], [1, 1, 3])
data = extractor(outputs)
image_vis = visualizer.visualize(image, data)
return image_vis
if __name__ == '__main__':
image = cv2.imread('a.jpg')
vis = densepose_iuv(image)