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- .gitignore +138 -0
- .pre-commit-config.yaml +26 -0
- ControlNet/.gitignore +143 -0
- ControlNet/LICENSE +201 -0
- ControlNet/annotator/canny/__init__.py +6 -0
- ControlNet/annotator/ckpts/ckpts.txt +1 -0
- ControlNet/annotator/hed/__init__.py +96 -0
- ControlNet/annotator/midas/LICENSE +21 -0
- ControlNet/annotator/midas/__init__.py +42 -0
- ControlNet/annotator/midas/api.py +169 -0
- ControlNet/annotator/midas/midas/__init__.py +0 -0
- ControlNet/annotator/midas/midas/base_model.py +16 -0
- ControlNet/annotator/midas/midas/blocks.py +342 -0
- ControlNet/annotator/midas/midas/dpt_depth.py +109 -0
- ControlNet/annotator/midas/midas/midas_net.py +76 -0
- ControlNet/annotator/midas/midas/midas_net_custom.py +128 -0
- ControlNet/annotator/midas/midas/transforms.py +234 -0
- ControlNet/annotator/midas/midas/vit.py +491 -0
- ControlNet/annotator/midas/utils.py +189 -0
- ControlNet/annotator/mlsd/LICENSE +201 -0
- ControlNet/annotator/mlsd/__init__.py +43 -0
- ControlNet/annotator/mlsd/utils.py +580 -0
- ControlNet/annotator/openpose/LICENSE +108 -0
- ControlNet/annotator/openpose/__init__.py +49 -0
- ControlNet/annotator/openpose/body.py +219 -0
- ControlNet/annotator/openpose/hand.py +86 -0
- ControlNet/annotator/openpose/model.py +219 -0
- ControlNet/annotator/openpose/util.py +164 -0
- ControlNet/annotator/uniformer/LICENSE +203 -0
- ControlNet/annotator/uniformer/__init__.py +27 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/ade20k.py +54 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/chase_db1.py +59 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/cityscapes.py +54 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/cityscapes_769x769.py +35 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/drive.py +59 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/hrf.py +59 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/pascal_context.py +60 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/pascal_context_59.py +60 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/pascal_voc12.py +57 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/pascal_voc12_aug.py +9 -0
- ControlNet/annotator/uniformer/configs/_base_/datasets/stare.py +59 -0
- ControlNet/annotator/uniformer/configs/_base_/default_runtime.py +14 -0
- ControlNet/annotator/uniformer/configs/_base_/schedules/schedule_160k.py +9 -0
- ControlNet/annotator/uniformer/configs/_base_/schedules/schedule_20k.py +9 -0
- ControlNet/annotator/uniformer/configs/_base_/schedules/schedule_40k.py +9 -0
- ControlNet/annotator/uniformer/configs/_base_/schedules/schedule_80k.py +9 -0
- ControlNet/annotator/uniformer/exp/upernet_global_small/config.py +38 -0
- ControlNet/annotator/uniformer/exp/upernet_global_small/run.sh +10 -0
- ControlNet/annotator/uniformer/exp/upernet_global_small/test.sh +10 -0
- ControlNet/annotator/uniformer/exp/upernet_global_small/test_config_g.py +38 -0
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pip-log.txt
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htmlcov/
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.coverage.*
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coverage.xml
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*.cover
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.pytest_cache/
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# Translations
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*.mo
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*.pot
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*.log
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local_settings.py
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db.sqlite3
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celerybeat-schedule
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*.sage.py
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.env
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env/
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*.pth
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*.trt
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*.mar
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repos:
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ControlNet/.gitignore
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training/
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lightning_logs/
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image_log/
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*.pth
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*.pt
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*.ckpt
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*.safetensors
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gradio_pose2image_private.py
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gradio_canny2image_private.py
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# Byte-compiled / optimized / DLL files
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__pycache__/
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*.py[cod]
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18 |
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*$py.class
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# C extensions
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21 |
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*.so
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22 |
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23 |
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# Distribution / packaging
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24 |
+
.Python
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25 |
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build/
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26 |
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develop-eggs/
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27 |
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dist/
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downloads/
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eggs/
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.eggs/
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lib/
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lib64/
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parts/
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sdist/
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var/
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wheels/
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pip-wheel-metadata/
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share/python-wheels/
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*.egg-info/
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40 |
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.installed.cfg
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41 |
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*.egg
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42 |
+
MANIFEST
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43 |
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|
44 |
+
# PyInstaller
|
45 |
+
# Usually these files are written by a python script from a template
|
46 |
+
# before PyInstaller builds the exe, so as to inject date/other infos into it.
|
47 |
+
*.manifest
|
48 |
+
*.spec
|
49 |
+
|
50 |
+
# Installer logs
|
51 |
+
pip-log.txt
|
52 |
+
pip-delete-this-directory.txt
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53 |
+
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54 |
+
# Unit test / coverage reports
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55 |
+
htmlcov/
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56 |
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.tox/
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57 |
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.nox/
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.coverage
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.coverage.*
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.cache
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nosetests.xml
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62 |
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coverage.xml
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*.cover
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*.py,cover
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.hypothesis/
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.pytest_cache/
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68 |
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# Translations
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69 |
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*.mo
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70 |
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*.pot
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71 |
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72 |
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# Django stuff:
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73 |
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*.log
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74 |
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local_settings.py
|
75 |
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db.sqlite3
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76 |
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db.sqlite3-journal
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# Flask stuff:
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79 |
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instance/
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80 |
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.webassets-cache
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81 |
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82 |
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# Scrapy stuff:
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83 |
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.scrapy
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84 |
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85 |
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# Sphinx documentation
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86 |
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docs/_build/
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87 |
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# PyBuilder
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89 |
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target/
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# Jupyter Notebook
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92 |
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.ipynb_checkpoints
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# IPython
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profile_default/
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ipython_config.py
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# pyenv
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99 |
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.python-version
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101 |
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# pipenv
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# According to pypa/pipenv#598, it is recommended to include Pipfile.lock in version control.
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# However, in case of collaboration, if having platform-specific dependencies or dependencies
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# having no cross-platform support, pipenv may install dependencies that don't work, or not
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# install all needed dependencies.
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#Pipfile.lock
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# PEP 582; used by e.g. github.com/David-OConnor/pyflow
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__pypackages__/
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# Celery stuff
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celerybeat-schedule
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113 |
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celerybeat.pid
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114 |
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115 |
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# SageMath parsed files
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116 |
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*.sage.py
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117 |
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118 |
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# Environments
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119 |
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.env
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120 |
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.venv
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121 |
+
env/
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venv/
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123 |
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ENV/
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124 |
+
env.bak/
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125 |
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venv.bak/
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126 |
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# Spyder project settings
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128 |
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.spyderproject
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129 |
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.spyproject
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131 |
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# Rope project settings
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132 |
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.ropeproject
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# mkdocs documentation
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135 |
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/site
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# mypy
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.mypy_cache/
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.dmypy.json
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dmypy.json
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# Pyre type checker
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143 |
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.pyre/
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ControlNet/LICENSE
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ControlNet/annotator/canny/__init__.py
ADDED
@@ -0,0 +1,6 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
import cv2
|
2 |
+
|
3 |
+
|
4 |
+
class CannyDetector:
|
5 |
+
def __call__(self, img, low_threshold, high_threshold):
|
6 |
+
return cv2.Canny(img, low_threshold, high_threshold)
|
ControlNet/annotator/ckpts/ckpts.txt
ADDED
@@ -0,0 +1 @@
|
|
|
|
|
1 |
+
Weights here.
|
ControlNet/annotator/hed/__init__.py
ADDED
@@ -0,0 +1,96 @@
|
|
|
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|
|
|
1 |
+
# This is an improved version and model of HED edge detection with Apache License, Version 2.0.
|
2 |
+
# Please use this implementation in your products
|
3 |
+
# This implementation may produce slightly different results from Saining Xie's official implementations,
|
4 |
+
# but it generates smoother edges and is more suitable for ControlNet as well as other image-to-image translations.
|
5 |
+
# Different from official models and other implementations, this is an RGB-input model (rather than BGR)
|
6 |
+
# and in this way it works better for gradio's RGB protocol
|
7 |
+
|
8 |
+
import os
|
9 |
+
import cv2
|
10 |
+
import torch
|
11 |
+
import numpy as np
|
12 |
+
|
13 |
+
from einops import rearrange
|
14 |
+
from annotator.util import annotator_ckpts_path
|
15 |
+
|
16 |
+
|
17 |
+
class DoubleConvBlock(torch.nn.Module):
|
18 |
+
def __init__(self, input_channel, output_channel, layer_number):
|
19 |
+
super().__init__()
|
20 |
+
self.convs = torch.nn.Sequential()
|
21 |
+
self.convs.append(torch.nn.Conv2d(in_channels=input_channel, out_channels=output_channel, kernel_size=(3, 3), stride=(1, 1), padding=1))
|
22 |
+
for i in range(1, layer_number):
|
23 |
+
self.convs.append(torch.nn.Conv2d(in_channels=output_channel, out_channels=output_channel, kernel_size=(3, 3), stride=(1, 1), padding=1))
|
24 |
+
self.projection = torch.nn.Conv2d(in_channels=output_channel, out_channels=1, kernel_size=(1, 1), stride=(1, 1), padding=0)
|
25 |
+
|
26 |
+
def __call__(self, x, down_sampling=False):
|
27 |
+
h = x
|
28 |
+
if down_sampling:
|
29 |
+
h = torch.nn.functional.max_pool2d(h, kernel_size=(2, 2), stride=(2, 2))
|
30 |
+
for conv in self.convs:
|
31 |
+
h = conv(h)
|
32 |
+
h = torch.nn.functional.relu(h)
|
33 |
+
return h, self.projection(h)
|
34 |
+
|
35 |
+
|
36 |
+
class ControlNetHED_Apache2(torch.nn.Module):
|
37 |
+
def __init__(self):
|
38 |
+
super().__init__()
|
39 |
+
self.norm = torch.nn.Parameter(torch.zeros(size=(1, 3, 1, 1)))
|
40 |
+
self.block1 = DoubleConvBlock(input_channel=3, output_channel=64, layer_number=2)
|
41 |
+
self.block2 = DoubleConvBlock(input_channel=64, output_channel=128, layer_number=2)
|
42 |
+
self.block3 = DoubleConvBlock(input_channel=128, output_channel=256, layer_number=3)
|
43 |
+
self.block4 = DoubleConvBlock(input_channel=256, output_channel=512, layer_number=3)
|
44 |
+
self.block5 = DoubleConvBlock(input_channel=512, output_channel=512, layer_number=3)
|
45 |
+
|
46 |
+
def __call__(self, x):
|
47 |
+
h = x - self.norm
|
48 |
+
h, projection1 = self.block1(h)
|
49 |
+
h, projection2 = self.block2(h, down_sampling=True)
|
50 |
+
h, projection3 = self.block3(h, down_sampling=True)
|
51 |
+
h, projection4 = self.block4(h, down_sampling=True)
|
52 |
+
h, projection5 = self.block5(h, down_sampling=True)
|
53 |
+
return projection1, projection2, projection3, projection4, projection5
|
54 |
+
|
55 |
+
|
56 |
+
class HEDdetector:
|
57 |
+
def __init__(self):
|
58 |
+
remote_model_path = "https://huggingface.co/lllyasviel/Annotators/resolve/main/ControlNetHED.pth"
|
59 |
+
modelpath = os.path.join(annotator_ckpts_path, "ControlNetHED.pth")
|
60 |
+
if not os.path.exists(modelpath):
|
61 |
+
from basicsr.utils.download_util import load_file_from_url
|
62 |
+
load_file_from_url(remote_model_path, model_dir=annotator_ckpts_path)
|
63 |
+
self.netNetwork = ControlNetHED_Apache2().float().cuda().eval()
|
64 |
+
self.netNetwork.load_state_dict(torch.load(modelpath))
|
65 |
+
|
66 |
+
def __call__(self, input_image):
|
67 |
+
assert input_image.ndim == 3
|
68 |
+
H, W, C = input_image.shape
|
69 |
+
with torch.no_grad():
|
70 |
+
image_hed = torch.from_numpy(input_image.copy()).float().cuda()
|
71 |
+
image_hed = rearrange(image_hed, 'h w c -> 1 c h w')
|
72 |
+
edges = self.netNetwork(image_hed)
|
73 |
+
edges = [e.detach().cpu().numpy().astype(np.float32)[0, 0] for e in edges]
|
74 |
+
edges = [cv2.resize(e, (W, H), interpolation=cv2.INTER_LINEAR) for e in edges]
|
75 |
+
edges = np.stack(edges, axis=2)
|
76 |
+
edge = 1 / (1 + np.exp(-np.mean(edges, axis=2).astype(np.float64)))
|
77 |
+
edge = (edge * 255.0).clip(0, 255).astype(np.uint8)
|
78 |
+
return edge
|
79 |
+
|
80 |
+
|
81 |
+
def nms(x, t, s):
|
82 |
+
x = cv2.GaussianBlur(x.astype(np.float32), (0, 0), s)
|
83 |
+
|
84 |
+
f1 = np.array([[0, 0, 0], [1, 1, 1], [0, 0, 0]], dtype=np.uint8)
|
85 |
+
f2 = np.array([[0, 1, 0], [0, 1, 0], [0, 1, 0]], dtype=np.uint8)
|
86 |
+
f3 = np.array([[1, 0, 0], [0, 1, 0], [0, 0, 1]], dtype=np.uint8)
|
87 |
+
f4 = np.array([[0, 0, 1], [0, 1, 0], [1, 0, 0]], dtype=np.uint8)
|
88 |
+
|
89 |
+
y = np.zeros_like(x)
|
90 |
+
|
91 |
+
for f in [f1, f2, f3, f4]:
|
92 |
+
np.putmask(y, cv2.dilate(x, kernel=f) == x, x)
|
93 |
+
|
94 |
+
z = np.zeros_like(y, dtype=np.uint8)
|
95 |
+
z[y > t] = 255
|
96 |
+
return z
|
ControlNet/annotator/midas/LICENSE
ADDED
@@ -0,0 +1,21 @@
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|
1 |
+
MIT License
|
2 |
+
|
3 |
+
Copyright (c) 2019 Intel ISL (Intel Intelligent Systems Lab)
|
4 |
+
|
5 |
+
Permission is hereby granted, free of charge, to any person obtaining a copy
|
6 |
+
of this software and associated documentation files (the "Software"), to deal
|
7 |
+
in the Software without restriction, including without limitation the rights
|
8 |
+
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
|
9 |
+
copies of the Software, and to permit persons to whom the Software is
|
10 |
+
furnished to do so, subject to the following conditions:
|
11 |
+
|
12 |
+
The above copyright notice and this permission notice shall be included in all
|
13 |
+
copies or substantial portions of the Software.
|
14 |
+
|
15 |
+
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
|
16 |
+
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
|
17 |
+
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
|
18 |
+
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
|
19 |
+
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
|
20 |
+
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
|
21 |
+
SOFTWARE.
|
ControlNet/annotator/midas/__init__.py
ADDED
@@ -0,0 +1,42 @@
|
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|
1 |
+
# Midas Depth Estimation
|
2 |
+
# From https://github.com/isl-org/MiDaS
|
3 |
+
# MIT LICENSE
|
4 |
+
|
5 |
+
import cv2
|
6 |
+
import numpy as np
|
7 |
+
import torch
|
8 |
+
|
9 |
+
from einops import rearrange
|
10 |
+
from .api import MiDaSInference
|
11 |
+
|
12 |
+
|
13 |
+
class MidasDetector:
|
14 |
+
def __init__(self):
|
15 |
+
self.model = MiDaSInference(model_type="dpt_hybrid").cuda()
|
16 |
+
|
17 |
+
def __call__(self, input_image, a=np.pi * 2.0, bg_th=0.1):
|
18 |
+
assert input_image.ndim == 3
|
19 |
+
image_depth = input_image
|
20 |
+
with torch.no_grad():
|
21 |
+
image_depth = torch.from_numpy(image_depth).float().cuda()
|
22 |
+
image_depth = image_depth / 127.5 - 1.0
|
23 |
+
image_depth = rearrange(image_depth, 'h w c -> 1 c h w')
|
24 |
+
depth = self.model(image_depth)[0]
|
25 |
+
|
26 |
+
depth_pt = depth.clone()
|
27 |
+
depth_pt -= torch.min(depth_pt)
|
28 |
+
depth_pt /= torch.max(depth_pt)
|
29 |
+
depth_pt = depth_pt.cpu().numpy()
|
30 |
+
depth_image = (depth_pt * 255.0).clip(0, 255).astype(np.uint8)
|
31 |
+
|
32 |
+
depth_np = depth.cpu().numpy()
|
33 |
+
x = cv2.Sobel(depth_np, cv2.CV_32F, 1, 0, ksize=3)
|
34 |
+
y = cv2.Sobel(depth_np, cv2.CV_32F, 0, 1, ksize=3)
|
35 |
+
z = np.ones_like(x) * a
|
36 |
+
x[depth_pt < bg_th] = 0
|
37 |
+
y[depth_pt < bg_th] = 0
|
38 |
+
normal = np.stack([x, y, z], axis=2)
|
39 |
+
normal /= np.sum(normal ** 2.0, axis=2, keepdims=True) ** 0.5
|
40 |
+
normal_image = (normal * 127.5 + 127.5).clip(0, 255).astype(np.uint8)
|
41 |
+
|
42 |
+
return depth_image, normal_image
|
ControlNet/annotator/midas/api.py
ADDED
@@ -0,0 +1,169 @@
|
|
|
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|
|
|
|
|
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|
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|
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|
|
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|
|
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|
|
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|
|
|
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|
|
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|
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|
|
|
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|
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|
|
|
|
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|
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|
|
|
|
|
|
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|
|
|
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|
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|
|
|
|
|
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|
|
|
|
|
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|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# based on https://github.com/isl-org/MiDaS
|
2 |
+
|
3 |
+
import cv2
|
4 |
+
import os
|
5 |
+
import torch
|
6 |
+
import torch.nn as nn
|
7 |
+
from torchvision.transforms import Compose
|
8 |
+
|
9 |
+
from .midas.dpt_depth import DPTDepthModel
|
10 |
+
from .midas.midas_net import MidasNet
|
11 |
+
from .midas.midas_net_custom import MidasNet_small
|
12 |
+
from .midas.transforms import Resize, NormalizeImage, PrepareForNet
|
13 |
+
from annotator.util import annotator_ckpts_path
|
14 |
+
|
15 |
+
|
16 |
+
ISL_PATHS = {
|
17 |
+
"dpt_large": os.path.join(annotator_ckpts_path, "dpt_large-midas-2f21e586.pt"),
|
18 |
+
"dpt_hybrid": os.path.join(annotator_ckpts_path, "dpt_hybrid-midas-501f0c75.pt"),
|
19 |
+
"midas_v21": "",
|
20 |
+
"midas_v21_small": "",
|
21 |
+
}
|
22 |
+
|
23 |
+
remote_model_path = "https://huggingface.co/lllyasviel/ControlNet/resolve/main/annotator/ckpts/dpt_hybrid-midas-501f0c75.pt"
|
24 |
+
|
25 |
+
|
26 |
+
def disabled_train(self, mode=True):
|
27 |
+
"""Overwrite model.train with this function to make sure train/eval mode
|
28 |
+
does not change anymore."""
|
29 |
+
return self
|
30 |
+
|
31 |
+
|
32 |
+
def load_midas_transform(model_type):
|
33 |
+
# https://github.com/isl-org/MiDaS/blob/master/run.py
|
34 |
+
# load transform only
|
35 |
+
if model_type == "dpt_large": # DPT-Large
|
36 |
+
net_w, net_h = 384, 384
|
37 |
+
resize_mode = "minimal"
|
38 |
+
normalization = NormalizeImage(mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5])
|
39 |
+
|
40 |
+
elif model_type == "dpt_hybrid": # DPT-Hybrid
|
41 |
+
net_w, net_h = 384, 384
|
42 |
+
resize_mode = "minimal"
|
43 |
+
normalization = NormalizeImage(mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5])
|
44 |
+
|
45 |
+
elif model_type == "midas_v21":
|
46 |
+
net_w, net_h = 384, 384
|
47 |
+
resize_mode = "upper_bound"
|
48 |
+
normalization = NormalizeImage(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225])
|
49 |
+
|
50 |
+
elif model_type == "midas_v21_small":
|
51 |
+
net_w, net_h = 256, 256
|
52 |
+
resize_mode = "upper_bound"
|
53 |
+
normalization = NormalizeImage(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225])
|
54 |
+
|
55 |
+
else:
|
56 |
+
assert False, f"model_type '{model_type}' not implemented, use: --model_type large"
|
57 |
+
|
58 |
+
transform = Compose(
|
59 |
+
[
|
60 |
+
Resize(
|
61 |
+
net_w,
|
62 |
+
net_h,
|
63 |
+
resize_target=None,
|
64 |
+
keep_aspect_ratio=True,
|
65 |
+
ensure_multiple_of=32,
|
66 |
+
resize_method=resize_mode,
|
67 |
+
image_interpolation_method=cv2.INTER_CUBIC,
|
68 |
+
),
|
69 |
+
normalization,
|
70 |
+
PrepareForNet(),
|
71 |
+
]
|
72 |
+
)
|
73 |
+
|
74 |
+
return transform
|
75 |
+
|
76 |
+
|
77 |
+
def load_model(model_type):
|
78 |
+
# https://github.com/isl-org/MiDaS/blob/master/run.py
|
79 |
+
# load network
|
80 |
+
model_path = ISL_PATHS[model_type]
|
81 |
+
if model_type == "dpt_large": # DPT-Large
|
82 |
+
model = DPTDepthModel(
|
83 |
+
path=model_path,
|
84 |
+
backbone="vitl16_384",
|
85 |
+
non_negative=True,
|
86 |
+
)
|
87 |
+
net_w, net_h = 384, 384
|
88 |
+
resize_mode = "minimal"
|
89 |
+
normalization = NormalizeImage(mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5])
|
90 |
+
|
91 |
+
elif model_type == "dpt_hybrid": # DPT-Hybrid
|
92 |
+
if not os.path.exists(model_path):
|
93 |
+
from basicsr.utils.download_util import load_file_from_url
|
94 |
+
load_file_from_url(remote_model_path, model_dir=annotator_ckpts_path)
|
95 |
+
|
96 |
+
model = DPTDepthModel(
|
97 |
+
path=model_path,
|
98 |
+
backbone="vitb_rn50_384",
|
99 |
+
non_negative=True,
|
100 |
+
)
|
101 |
+
net_w, net_h = 384, 384
|
102 |
+
resize_mode = "minimal"
|
103 |
+
normalization = NormalizeImage(mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5])
|
104 |
+
|
105 |
+
elif model_type == "midas_v21":
|
106 |
+
model = MidasNet(model_path, non_negative=True)
|
107 |
+
net_w, net_h = 384, 384
|
108 |
+
resize_mode = "upper_bound"
|
109 |
+
normalization = NormalizeImage(
|
110 |
+
mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]
|
111 |
+
)
|
112 |
+
|
113 |
+
elif model_type == "midas_v21_small":
|
114 |
+
model = MidasNet_small(model_path, features=64, backbone="efficientnet_lite3", exportable=True,
|
115 |
+
non_negative=True, blocks={'expand': True})
|
116 |
+
net_w, net_h = 256, 256
|
117 |
+
resize_mode = "upper_bound"
|
118 |
+
normalization = NormalizeImage(
|
119 |
+
mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]
|
120 |
+
)
|
121 |
+
|
122 |
+
else:
|
123 |
+
print(f"model_type '{model_type}' not implemented, use: --model_type large")
|
124 |
+
assert False
|
125 |
+
|
126 |
+
transform = Compose(
|
127 |
+
[
|
128 |
+
Resize(
|
129 |
+
net_w,
|
130 |
+
net_h,
|
131 |
+
resize_target=None,
|
132 |
+
keep_aspect_ratio=True,
|
133 |
+
ensure_multiple_of=32,
|
134 |
+
resize_method=resize_mode,
|
135 |
+
image_interpolation_method=cv2.INTER_CUBIC,
|
136 |
+
),
|
137 |
+
normalization,
|
138 |
+
PrepareForNet(),
|
139 |
+
]
|
140 |
+
)
|
141 |
+
|
142 |
+
return model.eval(), transform
|
143 |
+
|
144 |
+
|
145 |
+
class MiDaSInference(nn.Module):
|
146 |
+
MODEL_TYPES_TORCH_HUB = [
|
147 |
+
"DPT_Large",
|
148 |
+
"DPT_Hybrid",
|
149 |
+
"MiDaS_small"
|
150 |
+
]
|
151 |
+
MODEL_TYPES_ISL = [
|
152 |
+
"dpt_large",
|
153 |
+
"dpt_hybrid",
|
154 |
+
"midas_v21",
|
155 |
+
"midas_v21_small",
|
156 |
+
]
|
157 |
+
|
158 |
+
def __init__(self, model_type):
|
159 |
+
super().__init__()
|
160 |
+
assert (model_type in self.MODEL_TYPES_ISL)
|
161 |
+
model, _ = load_model(model_type)
|
162 |
+
self.model = model
|
163 |
+
self.model.train = disabled_train
|
164 |
+
|
165 |
+
def forward(self, x):
|
166 |
+
with torch.no_grad():
|
167 |
+
prediction = self.model(x)
|
168 |
+
return prediction
|
169 |
+
|
ControlNet/annotator/midas/midas/__init__.py
ADDED
File without changes
|
ControlNet/annotator/midas/midas/base_model.py
ADDED
@@ -0,0 +1,16 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
import torch
|
2 |
+
|
3 |
+
|
4 |
+
class BaseModel(torch.nn.Module):
|
5 |
+
def load(self, path):
|
6 |
+
"""Load model from file.
|
7 |
+
|
8 |
+
Args:
|
9 |
+
path (str): file path
|
10 |
+
"""
|
11 |
+
parameters = torch.load(path, map_location=torch.device('cpu'))
|
12 |
+
|
13 |
+
if "optimizer" in parameters:
|
14 |
+
parameters = parameters["model"]
|
15 |
+
|
16 |
+
self.load_state_dict(parameters)
|
ControlNet/annotator/midas/midas/blocks.py
ADDED
@@ -0,0 +1,342 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
|
1 |
+
import torch
|
2 |
+
import torch.nn as nn
|
3 |
+
|
4 |
+
from .vit import (
|
5 |
+
_make_pretrained_vitb_rn50_384,
|
6 |
+
_make_pretrained_vitl16_384,
|
7 |
+
_make_pretrained_vitb16_384,
|
8 |
+
forward_vit,
|
9 |
+
)
|
10 |
+
|
11 |
+
def _make_encoder(backbone, features, use_pretrained, groups=1, expand=False, exportable=True, hooks=None, use_vit_only=False, use_readout="ignore",):
|
12 |
+
if backbone == "vitl16_384":
|
13 |
+
pretrained = _make_pretrained_vitl16_384(
|
14 |
+
use_pretrained, hooks=hooks, use_readout=use_readout
|
15 |
+
)
|
16 |
+
scratch = _make_scratch(
|
17 |
+
[256, 512, 1024, 1024], features, groups=groups, expand=expand
|
18 |
+
) # ViT-L/16 - 85.0% Top1 (backbone)
|
19 |
+
elif backbone == "vitb_rn50_384":
|
20 |
+
pretrained = _make_pretrained_vitb_rn50_384(
|
21 |
+
use_pretrained,
|
22 |
+
hooks=hooks,
|
23 |
+
use_vit_only=use_vit_only,
|
24 |
+
use_readout=use_readout,
|
25 |
+
)
|
26 |
+
scratch = _make_scratch(
|
27 |
+
[256, 512, 768, 768], features, groups=groups, expand=expand
|
28 |
+
) # ViT-H/16 - 85.0% Top1 (backbone)
|
29 |
+
elif backbone == "vitb16_384":
|
30 |
+
pretrained = _make_pretrained_vitb16_384(
|
31 |
+
use_pretrained, hooks=hooks, use_readout=use_readout
|
32 |
+
)
|
33 |
+
scratch = _make_scratch(
|
34 |
+
[96, 192, 384, 768], features, groups=groups, expand=expand
|
35 |
+
) # ViT-B/16 - 84.6% Top1 (backbone)
|
36 |
+
elif backbone == "resnext101_wsl":
|
37 |
+
pretrained = _make_pretrained_resnext101_wsl(use_pretrained)
|
38 |
+
scratch = _make_scratch([256, 512, 1024, 2048], features, groups=groups, expand=expand) # efficientnet_lite3
|
39 |
+
elif backbone == "efficientnet_lite3":
|
40 |
+
pretrained = _make_pretrained_efficientnet_lite3(use_pretrained, exportable=exportable)
|
41 |
+
scratch = _make_scratch([32, 48, 136, 384], features, groups=groups, expand=expand) # efficientnet_lite3
|
42 |
+
else:
|
43 |
+
print(f"Backbone '{backbone}' not implemented")
|
44 |
+
assert False
|
45 |
+
|
46 |
+
return pretrained, scratch
|
47 |
+
|
48 |
+
|
49 |
+
def _make_scratch(in_shape, out_shape, groups=1, expand=False):
|
50 |
+
scratch = nn.Module()
|
51 |
+
|
52 |
+
out_shape1 = out_shape
|
53 |
+
out_shape2 = out_shape
|
54 |
+
out_shape3 = out_shape
|
55 |
+
out_shape4 = out_shape
|
56 |
+
if expand==True:
|
57 |
+
out_shape1 = out_shape
|
58 |
+
out_shape2 = out_shape*2
|
59 |
+
out_shape3 = out_shape*4
|
60 |
+
out_shape4 = out_shape*8
|
61 |
+
|
62 |
+
scratch.layer1_rn = nn.Conv2d(
|
63 |
+
in_shape[0], out_shape1, kernel_size=3, stride=1, padding=1, bias=False, groups=groups
|
64 |
+
)
|
65 |
+
scratch.layer2_rn = nn.Conv2d(
|
66 |
+
in_shape[1], out_shape2, kernel_size=3, stride=1, padding=1, bias=False, groups=groups
|
67 |
+
)
|
68 |
+
scratch.layer3_rn = nn.Conv2d(
|
69 |
+
in_shape[2], out_shape3, kernel_size=3, stride=1, padding=1, bias=False, groups=groups
|
70 |
+
)
|
71 |
+
scratch.layer4_rn = nn.Conv2d(
|
72 |
+
in_shape[3], out_shape4, kernel_size=3, stride=1, padding=1, bias=False, groups=groups
|
73 |
+
)
|
74 |
+
|
75 |
+
return scratch
|
76 |
+
|
77 |
+
|
78 |
+
def _make_pretrained_efficientnet_lite3(use_pretrained, exportable=False):
|
79 |
+
efficientnet = torch.hub.load(
|
80 |
+
"rwightman/gen-efficientnet-pytorch",
|
81 |
+
"tf_efficientnet_lite3",
|
82 |
+
pretrained=use_pretrained,
|
83 |
+
exportable=exportable
|
84 |
+
)
|
85 |
+
return _make_efficientnet_backbone(efficientnet)
|
86 |
+
|
87 |
+
|
88 |
+
def _make_efficientnet_backbone(effnet):
|
89 |
+
pretrained = nn.Module()
|
90 |
+
|
91 |
+
pretrained.layer1 = nn.Sequential(
|
92 |
+
effnet.conv_stem, effnet.bn1, effnet.act1, *effnet.blocks[0:2]
|
93 |
+
)
|
94 |
+
pretrained.layer2 = nn.Sequential(*effnet.blocks[2:3])
|
95 |
+
pretrained.layer3 = nn.Sequential(*effnet.blocks[3:5])
|
96 |
+
pretrained.layer4 = nn.Sequential(*effnet.blocks[5:9])
|
97 |
+
|
98 |
+
return pretrained
|
99 |
+
|
100 |
+
|
101 |
+
def _make_resnet_backbone(resnet):
|
102 |
+
pretrained = nn.Module()
|
103 |
+
pretrained.layer1 = nn.Sequential(
|
104 |
+
resnet.conv1, resnet.bn1, resnet.relu, resnet.maxpool, resnet.layer1
|
105 |
+
)
|
106 |
+
|
107 |
+
pretrained.layer2 = resnet.layer2
|
108 |
+
pretrained.layer3 = resnet.layer3
|
109 |
+
pretrained.layer4 = resnet.layer4
|
110 |
+
|
111 |
+
return pretrained
|
112 |
+
|
113 |
+
|
114 |
+
def _make_pretrained_resnext101_wsl(use_pretrained):
|
115 |
+
resnet = torch.hub.load("facebookresearch/WSL-Images", "resnext101_32x8d_wsl")
|
116 |
+
return _make_resnet_backbone(resnet)
|
117 |
+
|
118 |
+
|
119 |
+
|
120 |
+
class Interpolate(nn.Module):
|
121 |
+
"""Interpolation module.
|
122 |
+
"""
|
123 |
+
|
124 |
+
def __init__(self, scale_factor, mode, align_corners=False):
|
125 |
+
"""Init.
|
126 |
+
|
127 |
+
Args:
|
128 |
+
scale_factor (float): scaling
|
129 |
+
mode (str): interpolation mode
|
130 |
+
"""
|
131 |
+
super(Interpolate, self).__init__()
|
132 |
+
|
133 |
+
self.interp = nn.functional.interpolate
|
134 |
+
self.scale_factor = scale_factor
|
135 |
+
self.mode = mode
|
136 |
+
self.align_corners = align_corners
|
137 |
+
|
138 |
+
def forward(self, x):
|
139 |
+
"""Forward pass.
|
140 |
+
|
141 |
+
Args:
|
142 |
+
x (tensor): input
|
143 |
+
|
144 |
+
Returns:
|
145 |
+
tensor: interpolated data
|
146 |
+
"""
|
147 |
+
|
148 |
+
x = self.interp(
|
149 |
+
x, scale_factor=self.scale_factor, mode=self.mode, align_corners=self.align_corners
|
150 |
+
)
|
151 |
+
|
152 |
+
return x
|
153 |
+
|
154 |
+
|
155 |
+
class ResidualConvUnit(nn.Module):
|
156 |
+
"""Residual convolution module.
|
157 |
+
"""
|
158 |
+
|
159 |
+
def __init__(self, features):
|
160 |
+
"""Init.
|
161 |
+
|
162 |
+
Args:
|
163 |
+
features (int): number of features
|
164 |
+
"""
|
165 |
+
super().__init__()
|
166 |
+
|
167 |
+
self.conv1 = nn.Conv2d(
|
168 |
+
features, features, kernel_size=3, stride=1, padding=1, bias=True
|
169 |
+
)
|
170 |
+
|
171 |
+
self.conv2 = nn.Conv2d(
|
172 |
+
features, features, kernel_size=3, stride=1, padding=1, bias=True
|
173 |
+
)
|
174 |
+
|
175 |
+
self.relu = nn.ReLU(inplace=True)
|
176 |
+
|
177 |
+
def forward(self, x):
|
178 |
+
"""Forward pass.
|
179 |
+
|
180 |
+
Args:
|
181 |
+
x (tensor): input
|
182 |
+
|
183 |
+
Returns:
|
184 |
+
tensor: output
|
185 |
+
"""
|
186 |
+
out = self.relu(x)
|
187 |
+
out = self.conv1(out)
|
188 |
+
out = self.relu(out)
|
189 |
+
out = self.conv2(out)
|
190 |
+
|
191 |
+
return out + x
|
192 |
+
|
193 |
+
|
194 |
+
class FeatureFusionBlock(nn.Module):
|
195 |
+
"""Feature fusion block.
|
196 |
+
"""
|
197 |
+
|
198 |
+
def __init__(self, features):
|
199 |
+
"""Init.
|
200 |
+
|
201 |
+
Args:
|
202 |
+
features (int): number of features
|
203 |
+
"""
|
204 |
+
super(FeatureFusionBlock, self).__init__()
|
205 |
+
|
206 |
+
self.resConfUnit1 = ResidualConvUnit(features)
|
207 |
+
self.resConfUnit2 = ResidualConvUnit(features)
|
208 |
+
|
209 |
+
def forward(self, *xs):
|
210 |
+
"""Forward pass.
|
211 |
+
|
212 |
+
Returns:
|
213 |
+
tensor: output
|
214 |
+
"""
|
215 |
+
output = xs[0]
|
216 |
+
|
217 |
+
if len(xs) == 2:
|
218 |
+
output += self.resConfUnit1(xs[1])
|
219 |
+
|
220 |
+
output = self.resConfUnit2(output)
|
221 |
+
|
222 |
+
output = nn.functional.interpolate(
|
223 |
+
output, scale_factor=2, mode="bilinear", align_corners=True
|
224 |
+
)
|
225 |
+
|
226 |
+
return output
|
227 |
+
|
228 |
+
|
229 |
+
|
230 |
+
|
231 |
+
class ResidualConvUnit_custom(nn.Module):
|
232 |
+
"""Residual convolution module.
|
233 |
+
"""
|
234 |
+
|
235 |
+
def __init__(self, features, activation, bn):
|
236 |
+
"""Init.
|
237 |
+
|
238 |
+
Args:
|
239 |
+
features (int): number of features
|
240 |
+
"""
|
241 |
+
super().__init__()
|
242 |
+
|
243 |
+
self.bn = bn
|
244 |
+
|
245 |
+
self.groups=1
|
246 |
+
|
247 |
+
self.conv1 = nn.Conv2d(
|
248 |
+
features, features, kernel_size=3, stride=1, padding=1, bias=True, groups=self.groups
|
249 |
+
)
|
250 |
+
|
251 |
+
self.conv2 = nn.Conv2d(
|
252 |
+
features, features, kernel_size=3, stride=1, padding=1, bias=True, groups=self.groups
|
253 |
+
)
|
254 |
+
|
255 |
+
if self.bn==True:
|
256 |
+
self.bn1 = nn.BatchNorm2d(features)
|
257 |
+
self.bn2 = nn.BatchNorm2d(features)
|
258 |
+
|
259 |
+
self.activation = activation
|
260 |
+
|
261 |
+
self.skip_add = nn.quantized.FloatFunctional()
|
262 |
+
|
263 |
+
def forward(self, x):
|
264 |
+
"""Forward pass.
|
265 |
+
|
266 |
+
Args:
|
267 |
+
x (tensor): input
|
268 |
+
|
269 |
+
Returns:
|
270 |
+
tensor: output
|
271 |
+
"""
|
272 |
+
|
273 |
+
out = self.activation(x)
|
274 |
+
out = self.conv1(out)
|
275 |
+
if self.bn==True:
|
276 |
+
out = self.bn1(out)
|
277 |
+
|
278 |
+
out = self.activation(out)
|
279 |
+
out = self.conv2(out)
|
280 |
+
if self.bn==True:
|
281 |
+
out = self.bn2(out)
|
282 |
+
|
283 |
+
if self.groups > 1:
|
284 |
+
out = self.conv_merge(out)
|
285 |
+
|
286 |
+
return self.skip_add.add(out, x)
|
287 |
+
|
288 |
+
# return out + x
|
289 |
+
|
290 |
+
|
291 |
+
class FeatureFusionBlock_custom(nn.Module):
|
292 |
+
"""Feature fusion block.
|
293 |
+
"""
|
294 |
+
|
295 |
+
def __init__(self, features, activation, deconv=False, bn=False, expand=False, align_corners=True):
|
296 |
+
"""Init.
|
297 |
+
|
298 |
+
Args:
|
299 |
+
features (int): number of features
|
300 |
+
"""
|
301 |
+
super(FeatureFusionBlock_custom, self).__init__()
|
302 |
+
|
303 |
+
self.deconv = deconv
|
304 |
+
self.align_corners = align_corners
|
305 |
+
|
306 |
+
self.groups=1
|
307 |
+
|
308 |
+
self.expand = expand
|
309 |
+
out_features = features
|
310 |
+
if self.expand==True:
|
311 |
+
out_features = features//2
|
312 |
+
|
313 |
+
self.out_conv = nn.Conv2d(features, out_features, kernel_size=1, stride=1, padding=0, bias=True, groups=1)
|
314 |
+
|
315 |
+
self.resConfUnit1 = ResidualConvUnit_custom(features, activation, bn)
|
316 |
+
self.resConfUnit2 = ResidualConvUnit_custom(features, activation, bn)
|
317 |
+
|
318 |
+
self.skip_add = nn.quantized.FloatFunctional()
|
319 |
+
|
320 |
+
def forward(self, *xs):
|
321 |
+
"""Forward pass.
|
322 |
+
|
323 |
+
Returns:
|
324 |
+
tensor: output
|
325 |
+
"""
|
326 |
+
output = xs[0]
|
327 |
+
|
328 |
+
if len(xs) == 2:
|
329 |
+
res = self.resConfUnit1(xs[1])
|
330 |
+
output = self.skip_add.add(output, res)
|
331 |
+
# output += res
|
332 |
+
|
333 |
+
output = self.resConfUnit2(output)
|
334 |
+
|
335 |
+
output = nn.functional.interpolate(
|
336 |
+
output, scale_factor=2, mode="bilinear", align_corners=self.align_corners
|
337 |
+
)
|
338 |
+
|
339 |
+
output = self.out_conv(output)
|
340 |
+
|
341 |
+
return output
|
342 |
+
|
ControlNet/annotator/midas/midas/dpt_depth.py
ADDED
@@ -0,0 +1,109 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
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|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
import torch
|
2 |
+
import torch.nn as nn
|
3 |
+
import torch.nn.functional as F
|
4 |
+
|
5 |
+
from .base_model import BaseModel
|
6 |
+
from .blocks import (
|
7 |
+
FeatureFusionBlock,
|
8 |
+
FeatureFusionBlock_custom,
|
9 |
+
Interpolate,
|
10 |
+
_make_encoder,
|
11 |
+
forward_vit,
|
12 |
+
)
|
13 |
+
|
14 |
+
|
15 |
+
def _make_fusion_block(features, use_bn):
|
16 |
+
return FeatureFusionBlock_custom(
|
17 |
+
features,
|
18 |
+
nn.ReLU(False),
|
19 |
+
deconv=False,
|
20 |
+
bn=use_bn,
|
21 |
+
expand=False,
|
22 |
+
align_corners=True,
|
23 |
+
)
|
24 |
+
|
25 |
+
|
26 |
+
class DPT(BaseModel):
|
27 |
+
def __init__(
|
28 |
+
self,
|
29 |
+
head,
|
30 |
+
features=256,
|
31 |
+
backbone="vitb_rn50_384",
|
32 |
+
readout="project",
|
33 |
+
channels_last=False,
|
34 |
+
use_bn=False,
|
35 |
+
):
|
36 |
+
|
37 |
+
super(DPT, self).__init__()
|
38 |
+
|
39 |
+
self.channels_last = channels_last
|
40 |
+
|
41 |
+
hooks = {
|
42 |
+
"vitb_rn50_384": [0, 1, 8, 11],
|
43 |
+
"vitb16_384": [2, 5, 8, 11],
|
44 |
+
"vitl16_384": [5, 11, 17, 23],
|
45 |
+
}
|
46 |
+
|
47 |
+
# Instantiate backbone and reassemble blocks
|
48 |
+
self.pretrained, self.scratch = _make_encoder(
|
49 |
+
backbone,
|
50 |
+
features,
|
51 |
+
False, # Set to true of you want to train from scratch, uses ImageNet weights
|
52 |
+
groups=1,
|
53 |
+
expand=False,
|
54 |
+
exportable=False,
|
55 |
+
hooks=hooks[backbone],
|
56 |
+
use_readout=readout,
|
57 |
+
)
|
58 |
+
|
59 |
+
self.scratch.refinenet1 = _make_fusion_block(features, use_bn)
|
60 |
+
self.scratch.refinenet2 = _make_fusion_block(features, use_bn)
|
61 |
+
self.scratch.refinenet3 = _make_fusion_block(features, use_bn)
|
62 |
+
self.scratch.refinenet4 = _make_fusion_block(features, use_bn)
|
63 |
+
|
64 |
+
self.scratch.output_conv = head
|
65 |
+
|
66 |
+
|
67 |
+
def forward(self, x):
|
68 |
+
if self.channels_last == True:
|
69 |
+
x.contiguous(memory_format=torch.channels_last)
|
70 |
+
|
71 |
+
layer_1, layer_2, layer_3, layer_4 = forward_vit(self.pretrained, x)
|
72 |
+
|
73 |
+
layer_1_rn = self.scratch.layer1_rn(layer_1)
|
74 |
+
layer_2_rn = self.scratch.layer2_rn(layer_2)
|
75 |
+
layer_3_rn = self.scratch.layer3_rn(layer_3)
|
76 |
+
layer_4_rn = self.scratch.layer4_rn(layer_4)
|
77 |
+
|
78 |
+
path_4 = self.scratch.refinenet4(layer_4_rn)
|
79 |
+
path_3 = self.scratch.refinenet3(path_4, layer_3_rn)
|
80 |
+
path_2 = self.scratch.refinenet2(path_3, layer_2_rn)
|
81 |
+
path_1 = self.scratch.refinenet1(path_2, layer_1_rn)
|
82 |
+
|
83 |
+
out = self.scratch.output_conv(path_1)
|
84 |
+
|
85 |
+
return out
|
86 |
+
|
87 |
+
|
88 |
+
class DPTDepthModel(DPT):
|
89 |
+
def __init__(self, path=None, non_negative=True, **kwargs):
|
90 |
+
features = kwargs["features"] if "features" in kwargs else 256
|
91 |
+
|
92 |
+
head = nn.Sequential(
|
93 |
+
nn.Conv2d(features, features // 2, kernel_size=3, stride=1, padding=1),
|
94 |
+
Interpolate(scale_factor=2, mode="bilinear", align_corners=True),
|
95 |
+
nn.Conv2d(features // 2, 32, kernel_size=3, stride=1, padding=1),
|
96 |
+
nn.ReLU(True),
|
97 |
+
nn.Conv2d(32, 1, kernel_size=1, stride=1, padding=0),
|
98 |
+
nn.ReLU(True) if non_negative else nn.Identity(),
|
99 |
+
nn.Identity(),
|
100 |
+
)
|
101 |
+
|
102 |
+
super().__init__(head, **kwargs)
|
103 |
+
|
104 |
+
if path is not None:
|
105 |
+
self.load(path)
|
106 |
+
|
107 |
+
def forward(self, x):
|
108 |
+
return super().forward(x).squeeze(dim=1)
|
109 |
+
|
ControlNet/annotator/midas/midas/midas_net.py
ADDED
@@ -0,0 +1,76 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
"""MidashNet: Network for monocular depth estimation trained by mixing several datasets.
|
2 |
+
This file contains code that is adapted from
|
3 |
+
https://github.com/thomasjpfan/pytorch_refinenet/blob/master/pytorch_refinenet/refinenet/refinenet_4cascade.py
|
4 |
+
"""
|
5 |
+
import torch
|
6 |
+
import torch.nn as nn
|
7 |
+
|
8 |
+
from .base_model import BaseModel
|
9 |
+
from .blocks import FeatureFusionBlock, Interpolate, _make_encoder
|
10 |
+
|
11 |
+
|
12 |
+
class MidasNet(BaseModel):
|
13 |
+
"""Network for monocular depth estimation.
|
14 |
+
"""
|
15 |
+
|
16 |
+
def __init__(self, path=None, features=256, non_negative=True):
|
17 |
+
"""Init.
|
18 |
+
|
19 |
+
Args:
|
20 |
+
path (str, optional): Path to saved model. Defaults to None.
|
21 |
+
features (int, optional): Number of features. Defaults to 256.
|
22 |
+
backbone (str, optional): Backbone network for encoder. Defaults to resnet50
|
23 |
+
"""
|
24 |
+
print("Loading weights: ", path)
|
25 |
+
|
26 |
+
super(MidasNet, self).__init__()
|
27 |
+
|
28 |
+
use_pretrained = False if path is None else True
|
29 |
+
|
30 |
+
self.pretrained, self.scratch = _make_encoder(backbone="resnext101_wsl", features=features, use_pretrained=use_pretrained)
|
31 |
+
|
32 |
+
self.scratch.refinenet4 = FeatureFusionBlock(features)
|
33 |
+
self.scratch.refinenet3 = FeatureFusionBlock(features)
|
34 |
+
self.scratch.refinenet2 = FeatureFusionBlock(features)
|
35 |
+
self.scratch.refinenet1 = FeatureFusionBlock(features)
|
36 |
+
|
37 |
+
self.scratch.output_conv = nn.Sequential(
|
38 |
+
nn.Conv2d(features, 128, kernel_size=3, stride=1, padding=1),
|
39 |
+
Interpolate(scale_factor=2, mode="bilinear"),
|
40 |
+
nn.Conv2d(128, 32, kernel_size=3, stride=1, padding=1),
|
41 |
+
nn.ReLU(True),
|
42 |
+
nn.Conv2d(32, 1, kernel_size=1, stride=1, padding=0),
|
43 |
+
nn.ReLU(True) if non_negative else nn.Identity(),
|
44 |
+
)
|
45 |
+
|
46 |
+
if path:
|
47 |
+
self.load(path)
|
48 |
+
|
49 |
+
def forward(self, x):
|
50 |
+
"""Forward pass.
|
51 |
+
|
52 |
+
Args:
|
53 |
+
x (tensor): input data (image)
|
54 |
+
|
55 |
+
Returns:
|
56 |
+
tensor: depth
|
57 |
+
"""
|
58 |
+
|
59 |
+
layer_1 = self.pretrained.layer1(x)
|
60 |
+
layer_2 = self.pretrained.layer2(layer_1)
|
61 |
+
layer_3 = self.pretrained.layer3(layer_2)
|
62 |
+
layer_4 = self.pretrained.layer4(layer_3)
|
63 |
+
|
64 |
+
layer_1_rn = self.scratch.layer1_rn(layer_1)
|
65 |
+
layer_2_rn = self.scratch.layer2_rn(layer_2)
|
66 |
+
layer_3_rn = self.scratch.layer3_rn(layer_3)
|
67 |
+
layer_4_rn = self.scratch.layer4_rn(layer_4)
|
68 |
+
|
69 |
+
path_4 = self.scratch.refinenet4(layer_4_rn)
|
70 |
+
path_3 = self.scratch.refinenet3(path_4, layer_3_rn)
|
71 |
+
path_2 = self.scratch.refinenet2(path_3, layer_2_rn)
|
72 |
+
path_1 = self.scratch.refinenet1(path_2, layer_1_rn)
|
73 |
+
|
74 |
+
out = self.scratch.output_conv(path_1)
|
75 |
+
|
76 |
+
return torch.squeeze(out, dim=1)
|
ControlNet/annotator/midas/midas/midas_net_custom.py
ADDED
@@ -0,0 +1,128 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
"""MidashNet: Network for monocular depth estimation trained by mixing several datasets.
|
2 |
+
This file contains code that is adapted from
|
3 |
+
https://github.com/thomasjpfan/pytorch_refinenet/blob/master/pytorch_refinenet/refinenet/refinenet_4cascade.py
|
4 |
+
"""
|
5 |
+
import torch
|
6 |
+
import torch.nn as nn
|
7 |
+
|
8 |
+
from .base_model import BaseModel
|
9 |
+
from .blocks import FeatureFusionBlock, FeatureFusionBlock_custom, Interpolate, _make_encoder
|
10 |
+
|
11 |
+
|
12 |
+
class MidasNet_small(BaseModel):
|
13 |
+
"""Network for monocular depth estimation.
|
14 |
+
"""
|
15 |
+
|
16 |
+
def __init__(self, path=None, features=64, backbone="efficientnet_lite3", non_negative=True, exportable=True, channels_last=False, align_corners=True,
|
17 |
+
blocks={'expand': True}):
|
18 |
+
"""Init.
|
19 |
+
|
20 |
+
Args:
|
21 |
+
path (str, optional): Path to saved model. Defaults to None.
|
22 |
+
features (int, optional): Number of features. Defaults to 256.
|
23 |
+
backbone (str, optional): Backbone network for encoder. Defaults to resnet50
|
24 |
+
"""
|
25 |
+
print("Loading weights: ", path)
|
26 |
+
|
27 |
+
super(MidasNet_small, self).__init__()
|
28 |
+
|
29 |
+
use_pretrained = False if path else True
|
30 |
+
|
31 |
+
self.channels_last = channels_last
|
32 |
+
self.blocks = blocks
|
33 |
+
self.backbone = backbone
|
34 |
+
|
35 |
+
self.groups = 1
|
36 |
+
|
37 |
+
features1=features
|
38 |
+
features2=features
|
39 |
+
features3=features
|
40 |
+
features4=features
|
41 |
+
self.expand = False
|
42 |
+
if "expand" in self.blocks and self.blocks['expand'] == True:
|
43 |
+
self.expand = True
|
44 |
+
features1=features
|
45 |
+
features2=features*2
|
46 |
+
features3=features*4
|
47 |
+
features4=features*8
|
48 |
+
|
49 |
+
self.pretrained, self.scratch = _make_encoder(self.backbone, features, use_pretrained, groups=self.groups, expand=self.expand, exportable=exportable)
|
50 |
+
|
51 |
+
self.scratch.activation = nn.ReLU(False)
|
52 |
+
|
53 |
+
self.scratch.refinenet4 = FeatureFusionBlock_custom(features4, self.scratch.activation, deconv=False, bn=False, expand=self.expand, align_corners=align_corners)
|
54 |
+
self.scratch.refinenet3 = FeatureFusionBlock_custom(features3, self.scratch.activation, deconv=False, bn=False, expand=self.expand, align_corners=align_corners)
|
55 |
+
self.scratch.refinenet2 = FeatureFusionBlock_custom(features2, self.scratch.activation, deconv=False, bn=False, expand=self.expand, align_corners=align_corners)
|
56 |
+
self.scratch.refinenet1 = FeatureFusionBlock_custom(features1, self.scratch.activation, deconv=False, bn=False, align_corners=align_corners)
|
57 |
+
|
58 |
+
|
59 |
+
self.scratch.output_conv = nn.Sequential(
|
60 |
+
nn.Conv2d(features, features//2, kernel_size=3, stride=1, padding=1, groups=self.groups),
|
61 |
+
Interpolate(scale_factor=2, mode="bilinear"),
|
62 |
+
nn.Conv2d(features//2, 32, kernel_size=3, stride=1, padding=1),
|
63 |
+
self.scratch.activation,
|
64 |
+
nn.Conv2d(32, 1, kernel_size=1, stride=1, padding=0),
|
65 |
+
nn.ReLU(True) if non_negative else nn.Identity(),
|
66 |
+
nn.Identity(),
|
67 |
+
)
|
68 |
+
|
69 |
+
if path:
|
70 |
+
self.load(path)
|
71 |
+
|
72 |
+
|
73 |
+
def forward(self, x):
|
74 |
+
"""Forward pass.
|
75 |
+
|
76 |
+
Args:
|
77 |
+
x (tensor): input data (image)
|
78 |
+
|
79 |
+
Returns:
|
80 |
+
tensor: depth
|
81 |
+
"""
|
82 |
+
if self.channels_last==True:
|
83 |
+
print("self.channels_last = ", self.channels_last)
|
84 |
+
x.contiguous(memory_format=torch.channels_last)
|
85 |
+
|
86 |
+
|
87 |
+
layer_1 = self.pretrained.layer1(x)
|
88 |
+
layer_2 = self.pretrained.layer2(layer_1)
|
89 |
+
layer_3 = self.pretrained.layer3(layer_2)
|
90 |
+
layer_4 = self.pretrained.layer4(layer_3)
|
91 |
+
|
92 |
+
layer_1_rn = self.scratch.layer1_rn(layer_1)
|
93 |
+
layer_2_rn = self.scratch.layer2_rn(layer_2)
|
94 |
+
layer_3_rn = self.scratch.layer3_rn(layer_3)
|
95 |
+
layer_4_rn = self.scratch.layer4_rn(layer_4)
|
96 |
+
|
97 |
+
|
98 |
+
path_4 = self.scratch.refinenet4(layer_4_rn)
|
99 |
+
path_3 = self.scratch.refinenet3(path_4, layer_3_rn)
|
100 |
+
path_2 = self.scratch.refinenet2(path_3, layer_2_rn)
|
101 |
+
path_1 = self.scratch.refinenet1(path_2, layer_1_rn)
|
102 |
+
|
103 |
+
out = self.scratch.output_conv(path_1)
|
104 |
+
|
105 |
+
return torch.squeeze(out, dim=1)
|
106 |
+
|
107 |
+
|
108 |
+
|
109 |
+
def fuse_model(m):
|
110 |
+
prev_previous_type = nn.Identity()
|
111 |
+
prev_previous_name = ''
|
112 |
+
previous_type = nn.Identity()
|
113 |
+
previous_name = ''
|
114 |
+
for name, module in m.named_modules():
|
115 |
+
if prev_previous_type == nn.Conv2d and previous_type == nn.BatchNorm2d and type(module) == nn.ReLU:
|
116 |
+
# print("FUSED ", prev_previous_name, previous_name, name)
|
117 |
+
torch.quantization.fuse_modules(m, [prev_previous_name, previous_name, name], inplace=True)
|
118 |
+
elif prev_previous_type == nn.Conv2d and previous_type == nn.BatchNorm2d:
|
119 |
+
# print("FUSED ", prev_previous_name, previous_name)
|
120 |
+
torch.quantization.fuse_modules(m, [prev_previous_name, previous_name], inplace=True)
|
121 |
+
# elif previous_type == nn.Conv2d and type(module) == nn.ReLU:
|
122 |
+
# print("FUSED ", previous_name, name)
|
123 |
+
# torch.quantization.fuse_modules(m, [previous_name, name], inplace=True)
|
124 |
+
|
125 |
+
prev_previous_type = previous_type
|
126 |
+
prev_previous_name = previous_name
|
127 |
+
previous_type = type(module)
|
128 |
+
previous_name = name
|
ControlNet/annotator/midas/midas/transforms.py
ADDED
@@ -0,0 +1,234 @@
|
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|
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|
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|
|
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|
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|
|
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|
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|
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|
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|
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|
|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
import numpy as np
|
2 |
+
import cv2
|
3 |
+
import math
|
4 |
+
|
5 |
+
|
6 |
+
def apply_min_size(sample, size, image_interpolation_method=cv2.INTER_AREA):
|
7 |
+
"""Rezise the sample to ensure the given size. Keeps aspect ratio.
|
8 |
+
|
9 |
+
Args:
|
10 |
+
sample (dict): sample
|
11 |
+
size (tuple): image size
|
12 |
+
|
13 |
+
Returns:
|
14 |
+
tuple: new size
|
15 |
+
"""
|
16 |
+
shape = list(sample["disparity"].shape)
|
17 |
+
|
18 |
+
if shape[0] >= size[0] and shape[1] >= size[1]:
|
19 |
+
return sample
|
20 |
+
|
21 |
+
scale = [0, 0]
|
22 |
+
scale[0] = size[0] / shape[0]
|
23 |
+
scale[1] = size[1] / shape[1]
|
24 |
+
|
25 |
+
scale = max(scale)
|
26 |
+
|
27 |
+
shape[0] = math.ceil(scale * shape[0])
|
28 |
+
shape[1] = math.ceil(scale * shape[1])
|
29 |
+
|
30 |
+
# resize
|
31 |
+
sample["image"] = cv2.resize(
|
32 |
+
sample["image"], tuple(shape[::-1]), interpolation=image_interpolation_method
|
33 |
+
)
|
34 |
+
|
35 |
+
sample["disparity"] = cv2.resize(
|
36 |
+
sample["disparity"], tuple(shape[::-1]), interpolation=cv2.INTER_NEAREST
|
37 |
+
)
|
38 |
+
sample["mask"] = cv2.resize(
|
39 |
+
sample["mask"].astype(np.float32),
|
40 |
+
tuple(shape[::-1]),
|
41 |
+
interpolation=cv2.INTER_NEAREST,
|
42 |
+
)
|
43 |
+
sample["mask"] = sample["mask"].astype(bool)
|
44 |
+
|
45 |
+
return tuple(shape)
|
46 |
+
|
47 |
+
|
48 |
+
class Resize(object):
|
49 |
+
"""Resize sample to given size (width, height).
|
50 |
+
"""
|
51 |
+
|
52 |
+
def __init__(
|
53 |
+
self,
|
54 |
+
width,
|
55 |
+
height,
|
56 |
+
resize_target=True,
|
57 |
+
keep_aspect_ratio=False,
|
58 |
+
ensure_multiple_of=1,
|
59 |
+
resize_method="lower_bound",
|
60 |
+
image_interpolation_method=cv2.INTER_AREA,
|
61 |
+
):
|
62 |
+
"""Init.
|
63 |
+
|
64 |
+
Args:
|
65 |
+
width (int): desired output width
|
66 |
+
height (int): desired output height
|
67 |
+
resize_target (bool, optional):
|
68 |
+
True: Resize the full sample (image, mask, target).
|
69 |
+
False: Resize image only.
|
70 |
+
Defaults to True.
|
71 |
+
keep_aspect_ratio (bool, optional):
|
72 |
+
True: Keep the aspect ratio of the input sample.
|
73 |
+
Output sample might not have the given width and height, and
|
74 |
+
resize behaviour depends on the parameter 'resize_method'.
|
75 |
+
Defaults to False.
|
76 |
+
ensure_multiple_of (int, optional):
|
77 |
+
Output width and height is constrained to be multiple of this parameter.
|
78 |
+
Defaults to 1.
|
79 |
+
resize_method (str, optional):
|
80 |
+
"lower_bound": Output will be at least as large as the given size.
|
81 |
+
"upper_bound": Output will be at max as large as the given size. (Output size might be smaller than given size.)
|
82 |
+
"minimal": Scale as least as possible. (Output size might be smaller than given size.)
|
83 |
+
Defaults to "lower_bound".
|
84 |
+
"""
|
85 |
+
self.__width = width
|
86 |
+
self.__height = height
|
87 |
+
|
88 |
+
self.__resize_target = resize_target
|
89 |
+
self.__keep_aspect_ratio = keep_aspect_ratio
|
90 |
+
self.__multiple_of = ensure_multiple_of
|
91 |
+
self.__resize_method = resize_method
|
92 |
+
self.__image_interpolation_method = image_interpolation_method
|
93 |
+
|
94 |
+
def constrain_to_multiple_of(self, x, min_val=0, max_val=None):
|
95 |
+
y = (np.round(x / self.__multiple_of) * self.__multiple_of).astype(int)
|
96 |
+
|
97 |
+
if max_val is not None and y > max_val:
|
98 |
+
y = (np.floor(x / self.__multiple_of) * self.__multiple_of).astype(int)
|
99 |
+
|
100 |
+
if y < min_val:
|
101 |
+
y = (np.ceil(x / self.__multiple_of) * self.__multiple_of).astype(int)
|
102 |
+
|
103 |
+
return y
|
104 |
+
|
105 |
+
def get_size(self, width, height):
|
106 |
+
# determine new height and width
|
107 |
+
scale_height = self.__height / height
|
108 |
+
scale_width = self.__width / width
|
109 |
+
|
110 |
+
if self.__keep_aspect_ratio:
|
111 |
+
if self.__resize_method == "lower_bound":
|
112 |
+
# scale such that output size is lower bound
|
113 |
+
if scale_width > scale_height:
|
114 |
+
# fit width
|
115 |
+
scale_height = scale_width
|
116 |
+
else:
|
117 |
+
# fit height
|
118 |
+
scale_width = scale_height
|
119 |
+
elif self.__resize_method == "upper_bound":
|
120 |
+
# scale such that output size is upper bound
|
121 |
+
if scale_width < scale_height:
|
122 |
+
# fit width
|
123 |
+
scale_height = scale_width
|
124 |
+
else:
|
125 |
+
# fit height
|
126 |
+
scale_width = scale_height
|
127 |
+
elif self.__resize_method == "minimal":
|
128 |
+
# scale as least as possbile
|
129 |
+
if abs(1 - scale_width) < abs(1 - scale_height):
|
130 |
+
# fit width
|
131 |
+
scale_height = scale_width
|
132 |
+
else:
|
133 |
+
# fit height
|
134 |
+
scale_width = scale_height
|
135 |
+
else:
|
136 |
+
raise ValueError(
|
137 |
+
f"resize_method {self.__resize_method} not implemented"
|
138 |
+
)
|
139 |
+
|
140 |
+
if self.__resize_method == "lower_bound":
|
141 |
+
new_height = self.constrain_to_multiple_of(
|
142 |
+
scale_height * height, min_val=self.__height
|
143 |
+
)
|
144 |
+
new_width = self.constrain_to_multiple_of(
|
145 |
+
scale_width * width, min_val=self.__width
|
146 |
+
)
|
147 |
+
elif self.__resize_method == "upper_bound":
|
148 |
+
new_height = self.constrain_to_multiple_of(
|
149 |
+
scale_height * height, max_val=self.__height
|
150 |
+
)
|
151 |
+
new_width = self.constrain_to_multiple_of(
|
152 |
+
scale_width * width, max_val=self.__width
|
153 |
+
)
|
154 |
+
elif self.__resize_method == "minimal":
|
155 |
+
new_height = self.constrain_to_multiple_of(scale_height * height)
|
156 |
+
new_width = self.constrain_to_multiple_of(scale_width * width)
|
157 |
+
else:
|
158 |
+
raise ValueError(f"resize_method {self.__resize_method} not implemented")
|
159 |
+
|
160 |
+
return (new_width, new_height)
|
161 |
+
|
162 |
+
def __call__(self, sample):
|
163 |
+
width, height = self.get_size(
|
164 |
+
sample["image"].shape[1], sample["image"].shape[0]
|
165 |
+
)
|
166 |
+
|
167 |
+
# resize sample
|
168 |
+
sample["image"] = cv2.resize(
|
169 |
+
sample["image"],
|
170 |
+
(width, height),
|
171 |
+
interpolation=self.__image_interpolation_method,
|
172 |
+
)
|
173 |
+
|
174 |
+
if self.__resize_target:
|
175 |
+
if "disparity" in sample:
|
176 |
+
sample["disparity"] = cv2.resize(
|
177 |
+
sample["disparity"],
|
178 |
+
(width, height),
|
179 |
+
interpolation=cv2.INTER_NEAREST,
|
180 |
+
)
|
181 |
+
|
182 |
+
if "depth" in sample:
|
183 |
+
sample["depth"] = cv2.resize(
|
184 |
+
sample["depth"], (width, height), interpolation=cv2.INTER_NEAREST
|
185 |
+
)
|
186 |
+
|
187 |
+
sample["mask"] = cv2.resize(
|
188 |
+
sample["mask"].astype(np.float32),
|
189 |
+
(width, height),
|
190 |
+
interpolation=cv2.INTER_NEAREST,
|
191 |
+
)
|
192 |
+
sample["mask"] = sample["mask"].astype(bool)
|
193 |
+
|
194 |
+
return sample
|
195 |
+
|
196 |
+
|
197 |
+
class NormalizeImage(object):
|
198 |
+
"""Normlize image by given mean and std.
|
199 |
+
"""
|
200 |
+
|
201 |
+
def __init__(self, mean, std):
|
202 |
+
self.__mean = mean
|
203 |
+
self.__std = std
|
204 |
+
|
205 |
+
def __call__(self, sample):
|
206 |
+
sample["image"] = (sample["image"] - self.__mean) / self.__std
|
207 |
+
|
208 |
+
return sample
|
209 |
+
|
210 |
+
|
211 |
+
class PrepareForNet(object):
|
212 |
+
"""Prepare sample for usage as network input.
|
213 |
+
"""
|
214 |
+
|
215 |
+
def __init__(self):
|
216 |
+
pass
|
217 |
+
|
218 |
+
def __call__(self, sample):
|
219 |
+
image = np.transpose(sample["image"], (2, 0, 1))
|
220 |
+
sample["image"] = np.ascontiguousarray(image).astype(np.float32)
|
221 |
+
|
222 |
+
if "mask" in sample:
|
223 |
+
sample["mask"] = sample["mask"].astype(np.float32)
|
224 |
+
sample["mask"] = np.ascontiguousarray(sample["mask"])
|
225 |
+
|
226 |
+
if "disparity" in sample:
|
227 |
+
disparity = sample["disparity"].astype(np.float32)
|
228 |
+
sample["disparity"] = np.ascontiguousarray(disparity)
|
229 |
+
|
230 |
+
if "depth" in sample:
|
231 |
+
depth = sample["depth"].astype(np.float32)
|
232 |
+
sample["depth"] = np.ascontiguousarray(depth)
|
233 |
+
|
234 |
+
return sample
|
ControlNet/annotator/midas/midas/vit.py
ADDED
@@ -0,0 +1,491 @@
|
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|
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|
|
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|
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|
1 |
+
import torch
|
2 |
+
import torch.nn as nn
|
3 |
+
import timm
|
4 |
+
import types
|
5 |
+
import math
|
6 |
+
import torch.nn.functional as F
|
7 |
+
|
8 |
+
|
9 |
+
class Slice(nn.Module):
|
10 |
+
def __init__(self, start_index=1):
|
11 |
+
super(Slice, self).__init__()
|
12 |
+
self.start_index = start_index
|
13 |
+
|
14 |
+
def forward(self, x):
|
15 |
+
return x[:, self.start_index :]
|
16 |
+
|
17 |
+
|
18 |
+
class AddReadout(nn.Module):
|
19 |
+
def __init__(self, start_index=1):
|
20 |
+
super(AddReadout, self).__init__()
|
21 |
+
self.start_index = start_index
|
22 |
+
|
23 |
+
def forward(self, x):
|
24 |
+
if self.start_index == 2:
|
25 |
+
readout = (x[:, 0] + x[:, 1]) / 2
|
26 |
+
else:
|
27 |
+
readout = x[:, 0]
|
28 |
+
return x[:, self.start_index :] + readout.unsqueeze(1)
|
29 |
+
|
30 |
+
|
31 |
+
class ProjectReadout(nn.Module):
|
32 |
+
def __init__(self, in_features, start_index=1):
|
33 |
+
super(ProjectReadout, self).__init__()
|
34 |
+
self.start_index = start_index
|
35 |
+
|
36 |
+
self.project = nn.Sequential(nn.Linear(2 * in_features, in_features), nn.GELU())
|
37 |
+
|
38 |
+
def forward(self, x):
|
39 |
+
readout = x[:, 0].unsqueeze(1).expand_as(x[:, self.start_index :])
|
40 |
+
features = torch.cat((x[:, self.start_index :], readout), -1)
|
41 |
+
|
42 |
+
return self.project(features)
|
43 |
+
|
44 |
+
|
45 |
+
class Transpose(nn.Module):
|
46 |
+
def __init__(self, dim0, dim1):
|
47 |
+
super(Transpose, self).__init__()
|
48 |
+
self.dim0 = dim0
|
49 |
+
self.dim1 = dim1
|
50 |
+
|
51 |
+
def forward(self, x):
|
52 |
+
x = x.transpose(self.dim0, self.dim1)
|
53 |
+
return x
|
54 |
+
|
55 |
+
|
56 |
+
def forward_vit(pretrained, x):
|
57 |
+
b, c, h, w = x.shape
|
58 |
+
|
59 |
+
glob = pretrained.model.forward_flex(x)
|
60 |
+
|
61 |
+
layer_1 = pretrained.activations["1"]
|
62 |
+
layer_2 = pretrained.activations["2"]
|
63 |
+
layer_3 = pretrained.activations["3"]
|
64 |
+
layer_4 = pretrained.activations["4"]
|
65 |
+
|
66 |
+
layer_1 = pretrained.act_postprocess1[0:2](layer_1)
|
67 |
+
layer_2 = pretrained.act_postprocess2[0:2](layer_2)
|
68 |
+
layer_3 = pretrained.act_postprocess3[0:2](layer_3)
|
69 |
+
layer_4 = pretrained.act_postprocess4[0:2](layer_4)
|
70 |
+
|
71 |
+
unflatten = nn.Sequential(
|
72 |
+
nn.Unflatten(
|
73 |
+
2,
|
74 |
+
torch.Size(
|
75 |
+
[
|
76 |
+
h // pretrained.model.patch_size[1],
|
77 |
+
w // pretrained.model.patch_size[0],
|
78 |
+
]
|
79 |
+
),
|
80 |
+
)
|
81 |
+
)
|
82 |
+
|
83 |
+
if layer_1.ndim == 3:
|
84 |
+
layer_1 = unflatten(layer_1)
|
85 |
+
if layer_2.ndim == 3:
|
86 |
+
layer_2 = unflatten(layer_2)
|
87 |
+
if layer_3.ndim == 3:
|
88 |
+
layer_3 = unflatten(layer_3)
|
89 |
+
if layer_4.ndim == 3:
|
90 |
+
layer_4 = unflatten(layer_4)
|
91 |
+
|
92 |
+
layer_1 = pretrained.act_postprocess1[3 : len(pretrained.act_postprocess1)](layer_1)
|
93 |
+
layer_2 = pretrained.act_postprocess2[3 : len(pretrained.act_postprocess2)](layer_2)
|
94 |
+
layer_3 = pretrained.act_postprocess3[3 : len(pretrained.act_postprocess3)](layer_3)
|
95 |
+
layer_4 = pretrained.act_postprocess4[3 : len(pretrained.act_postprocess4)](layer_4)
|
96 |
+
|
97 |
+
return layer_1, layer_2, layer_3, layer_4
|
98 |
+
|
99 |
+
|
100 |
+
def _resize_pos_embed(self, posemb, gs_h, gs_w):
|
101 |
+
posemb_tok, posemb_grid = (
|
102 |
+
posemb[:, : self.start_index],
|
103 |
+
posemb[0, self.start_index :],
|
104 |
+
)
|
105 |
+
|
106 |
+
gs_old = int(math.sqrt(len(posemb_grid)))
|
107 |
+
|
108 |
+
posemb_grid = posemb_grid.reshape(1, gs_old, gs_old, -1).permute(0, 3, 1, 2)
|
109 |
+
posemb_grid = F.interpolate(posemb_grid, size=(gs_h, gs_w), mode="bilinear")
|
110 |
+
posemb_grid = posemb_grid.permute(0, 2, 3, 1).reshape(1, gs_h * gs_w, -1)
|
111 |
+
|
112 |
+
posemb = torch.cat([posemb_tok, posemb_grid], dim=1)
|
113 |
+
|
114 |
+
return posemb
|
115 |
+
|
116 |
+
|
117 |
+
def forward_flex(self, x):
|
118 |
+
b, c, h, w = x.shape
|
119 |
+
|
120 |
+
pos_embed = self._resize_pos_embed(
|
121 |
+
self.pos_embed, h // self.patch_size[1], w // self.patch_size[0]
|
122 |
+
)
|
123 |
+
|
124 |
+
B = x.shape[0]
|
125 |
+
|
126 |
+
if hasattr(self.patch_embed, "backbone"):
|
127 |
+
x = self.patch_embed.backbone(x)
|
128 |
+
if isinstance(x, (list, tuple)):
|
129 |
+
x = x[-1] # last feature if backbone outputs list/tuple of features
|
130 |
+
|
131 |
+
x = self.patch_embed.proj(x).flatten(2).transpose(1, 2)
|
132 |
+
|
133 |
+
if getattr(self, "dist_token", None) is not None:
|
134 |
+
cls_tokens = self.cls_token.expand(
|
135 |
+
B, -1, -1
|
136 |
+
) # stole cls_tokens impl from Phil Wang, thanks
|
137 |
+
dist_token = self.dist_token.expand(B, -1, -1)
|
138 |
+
x = torch.cat((cls_tokens, dist_token, x), dim=1)
|
139 |
+
else:
|
140 |
+
cls_tokens = self.cls_token.expand(
|
141 |
+
B, -1, -1
|
142 |
+
) # stole cls_tokens impl from Phil Wang, thanks
|
143 |
+
x = torch.cat((cls_tokens, x), dim=1)
|
144 |
+
|
145 |
+
x = x + pos_embed
|
146 |
+
x = self.pos_drop(x)
|
147 |
+
|
148 |
+
for blk in self.blocks:
|
149 |
+
x = blk(x)
|
150 |
+
|
151 |
+
x = self.norm(x)
|
152 |
+
|
153 |
+
return x
|
154 |
+
|
155 |
+
|
156 |
+
activations = {}
|
157 |
+
|
158 |
+
|
159 |
+
def get_activation(name):
|
160 |
+
def hook(model, input, output):
|
161 |
+
activations[name] = output
|
162 |
+
|
163 |
+
return hook
|
164 |
+
|
165 |
+
|
166 |
+
def get_readout_oper(vit_features, features, use_readout, start_index=1):
|
167 |
+
if use_readout == "ignore":
|
168 |
+
readout_oper = [Slice(start_index)] * len(features)
|
169 |
+
elif use_readout == "add":
|
170 |
+
readout_oper = [AddReadout(start_index)] * len(features)
|
171 |
+
elif use_readout == "project":
|
172 |
+
readout_oper = [
|
173 |
+
ProjectReadout(vit_features, start_index) for out_feat in features
|
174 |
+
]
|
175 |
+
else:
|
176 |
+
assert (
|
177 |
+
False
|
178 |
+
), "wrong operation for readout token, use_readout can be 'ignore', 'add', or 'project'"
|
179 |
+
|
180 |
+
return readout_oper
|
181 |
+
|
182 |
+
|
183 |
+
def _make_vit_b16_backbone(
|
184 |
+
model,
|
185 |
+
features=[96, 192, 384, 768],
|
186 |
+
size=[384, 384],
|
187 |
+
hooks=[2, 5, 8, 11],
|
188 |
+
vit_features=768,
|
189 |
+
use_readout="ignore",
|
190 |
+
start_index=1,
|
191 |
+
):
|
192 |
+
pretrained = nn.Module()
|
193 |
+
|
194 |
+
pretrained.model = model
|
195 |
+
pretrained.model.blocks[hooks[0]].register_forward_hook(get_activation("1"))
|
196 |
+
pretrained.model.blocks[hooks[1]].register_forward_hook(get_activation("2"))
|
197 |
+
pretrained.model.blocks[hooks[2]].register_forward_hook(get_activation("3"))
|
198 |
+
pretrained.model.blocks[hooks[3]].register_forward_hook(get_activation("4"))
|
199 |
+
|
200 |
+
pretrained.activations = activations
|
201 |
+
|
202 |
+
readout_oper = get_readout_oper(vit_features, features, use_readout, start_index)
|
203 |
+
|
204 |
+
# 32, 48, 136, 384
|
205 |
+
pretrained.act_postprocess1 = nn.Sequential(
|
206 |
+
readout_oper[0],
|
207 |
+
Transpose(1, 2),
|
208 |
+
nn.Unflatten(2, torch.Size([size[0] // 16, size[1] // 16])),
|
209 |
+
nn.Conv2d(
|
210 |
+
in_channels=vit_features,
|
211 |
+
out_channels=features[0],
|
212 |
+
kernel_size=1,
|
213 |
+
stride=1,
|
214 |
+
padding=0,
|
215 |
+
),
|
216 |
+
nn.ConvTranspose2d(
|
217 |
+
in_channels=features[0],
|
218 |
+
out_channels=features[0],
|
219 |
+
kernel_size=4,
|
220 |
+
stride=4,
|
221 |
+
padding=0,
|
222 |
+
bias=True,
|
223 |
+
dilation=1,
|
224 |
+
groups=1,
|
225 |
+
),
|
226 |
+
)
|
227 |
+
|
228 |
+
pretrained.act_postprocess2 = nn.Sequential(
|
229 |
+
readout_oper[1],
|
230 |
+
Transpose(1, 2),
|
231 |
+
nn.Unflatten(2, torch.Size([size[0] // 16, size[1] // 16])),
|
232 |
+
nn.Conv2d(
|
233 |
+
in_channels=vit_features,
|
234 |
+
out_channels=features[1],
|
235 |
+
kernel_size=1,
|
236 |
+
stride=1,
|
237 |
+
padding=0,
|
238 |
+
),
|
239 |
+
nn.ConvTranspose2d(
|
240 |
+
in_channels=features[1],
|
241 |
+
out_channels=features[1],
|
242 |
+
kernel_size=2,
|
243 |
+
stride=2,
|
244 |
+
padding=0,
|
245 |
+
bias=True,
|
246 |
+
dilation=1,
|
247 |
+
groups=1,
|
248 |
+
),
|
249 |
+
)
|
250 |
+
|
251 |
+
pretrained.act_postprocess3 = nn.Sequential(
|
252 |
+
readout_oper[2],
|
253 |
+
Transpose(1, 2),
|
254 |
+
nn.Unflatten(2, torch.Size([size[0] // 16, size[1] // 16])),
|
255 |
+
nn.Conv2d(
|
256 |
+
in_channels=vit_features,
|
257 |
+
out_channels=features[2],
|
258 |
+
kernel_size=1,
|
259 |
+
stride=1,
|
260 |
+
padding=0,
|
261 |
+
),
|
262 |
+
)
|
263 |
+
|
264 |
+
pretrained.act_postprocess4 = nn.Sequential(
|
265 |
+
readout_oper[3],
|
266 |
+
Transpose(1, 2),
|
267 |
+
nn.Unflatten(2, torch.Size([size[0] // 16, size[1] // 16])),
|
268 |
+
nn.Conv2d(
|
269 |
+
in_channels=vit_features,
|
270 |
+
out_channels=features[3],
|
271 |
+
kernel_size=1,
|
272 |
+
stride=1,
|
273 |
+
padding=0,
|
274 |
+
),
|
275 |
+
nn.Conv2d(
|
276 |
+
in_channels=features[3],
|
277 |
+
out_channels=features[3],
|
278 |
+
kernel_size=3,
|
279 |
+
stride=2,
|
280 |
+
padding=1,
|
281 |
+
),
|
282 |
+
)
|
283 |
+
|
284 |
+
pretrained.model.start_index = start_index
|
285 |
+
pretrained.model.patch_size = [16, 16]
|
286 |
+
|
287 |
+
# We inject this function into the VisionTransformer instances so that
|
288 |
+
# we can use it with interpolated position embeddings without modifying the library source.
|
289 |
+
pretrained.model.forward_flex = types.MethodType(forward_flex, pretrained.model)
|
290 |
+
pretrained.model._resize_pos_embed = types.MethodType(
|
291 |
+
_resize_pos_embed, pretrained.model
|
292 |
+
)
|
293 |
+
|
294 |
+
return pretrained
|
295 |
+
|
296 |
+
|
297 |
+
def _make_pretrained_vitl16_384(pretrained, use_readout="ignore", hooks=None):
|
298 |
+
model = timm.create_model("vit_large_patch16_384", pretrained=pretrained)
|
299 |
+
|
300 |
+
hooks = [5, 11, 17, 23] if hooks == None else hooks
|
301 |
+
return _make_vit_b16_backbone(
|
302 |
+
model,
|
303 |
+
features=[256, 512, 1024, 1024],
|
304 |
+
hooks=hooks,
|
305 |
+
vit_features=1024,
|
306 |
+
use_readout=use_readout,
|
307 |
+
)
|
308 |
+
|
309 |
+
|
310 |
+
def _make_pretrained_vitb16_384(pretrained, use_readout="ignore", hooks=None):
|
311 |
+
model = timm.create_model("vit_base_patch16_384", pretrained=pretrained)
|
312 |
+
|
313 |
+
hooks = [2, 5, 8, 11] if hooks == None else hooks
|
314 |
+
return _make_vit_b16_backbone(
|
315 |
+
model, features=[96, 192, 384, 768], hooks=hooks, use_readout=use_readout
|
316 |
+
)
|
317 |
+
|
318 |
+
|
319 |
+
def _make_pretrained_deitb16_384(pretrained, use_readout="ignore", hooks=None):
|
320 |
+
model = timm.create_model("vit_deit_base_patch16_384", pretrained=pretrained)
|
321 |
+
|
322 |
+
hooks = [2, 5, 8, 11] if hooks == None else hooks
|
323 |
+
return _make_vit_b16_backbone(
|
324 |
+
model, features=[96, 192, 384, 768], hooks=hooks, use_readout=use_readout
|
325 |
+
)
|
326 |
+
|
327 |
+
|
328 |
+
def _make_pretrained_deitb16_distil_384(pretrained, use_readout="ignore", hooks=None):
|
329 |
+
model = timm.create_model(
|
330 |
+
"vit_deit_base_distilled_patch16_384", pretrained=pretrained
|
331 |
+
)
|
332 |
+
|
333 |
+
hooks = [2, 5, 8, 11] if hooks == None else hooks
|
334 |
+
return _make_vit_b16_backbone(
|
335 |
+
model,
|
336 |
+
features=[96, 192, 384, 768],
|
337 |
+
hooks=hooks,
|
338 |
+
use_readout=use_readout,
|
339 |
+
start_index=2,
|
340 |
+
)
|
341 |
+
|
342 |
+
|
343 |
+
def _make_vit_b_rn50_backbone(
|
344 |
+
model,
|
345 |
+
features=[256, 512, 768, 768],
|
346 |
+
size=[384, 384],
|
347 |
+
hooks=[0, 1, 8, 11],
|
348 |
+
vit_features=768,
|
349 |
+
use_vit_only=False,
|
350 |
+
use_readout="ignore",
|
351 |
+
start_index=1,
|
352 |
+
):
|
353 |
+
pretrained = nn.Module()
|
354 |
+
|
355 |
+
pretrained.model = model
|
356 |
+
|
357 |
+
if use_vit_only == True:
|
358 |
+
pretrained.model.blocks[hooks[0]].register_forward_hook(get_activation("1"))
|
359 |
+
pretrained.model.blocks[hooks[1]].register_forward_hook(get_activation("2"))
|
360 |
+
else:
|
361 |
+
pretrained.model.patch_embed.backbone.stages[0].register_forward_hook(
|
362 |
+
get_activation("1")
|
363 |
+
)
|
364 |
+
pretrained.model.patch_embed.backbone.stages[1].register_forward_hook(
|
365 |
+
get_activation("2")
|
366 |
+
)
|
367 |
+
|
368 |
+
pretrained.model.blocks[hooks[2]].register_forward_hook(get_activation("3"))
|
369 |
+
pretrained.model.blocks[hooks[3]].register_forward_hook(get_activation("4"))
|
370 |
+
|
371 |
+
pretrained.activations = activations
|
372 |
+
|
373 |
+
readout_oper = get_readout_oper(vit_features, features, use_readout, start_index)
|
374 |
+
|
375 |
+
if use_vit_only == True:
|
376 |
+
pretrained.act_postprocess1 = nn.Sequential(
|
377 |
+
readout_oper[0],
|
378 |
+
Transpose(1, 2),
|
379 |
+
nn.Unflatten(2, torch.Size([size[0] // 16, size[1] // 16])),
|
380 |
+
nn.Conv2d(
|
381 |
+
in_channels=vit_features,
|
382 |
+
out_channels=features[0],
|
383 |
+
kernel_size=1,
|
384 |
+
stride=1,
|
385 |
+
padding=0,
|
386 |
+
),
|
387 |
+
nn.ConvTranspose2d(
|
388 |
+
in_channels=features[0],
|
389 |
+
out_channels=features[0],
|
390 |
+
kernel_size=4,
|
391 |
+
stride=4,
|
392 |
+
padding=0,
|
393 |
+
bias=True,
|
394 |
+
dilation=1,
|
395 |
+
groups=1,
|
396 |
+
),
|
397 |
+
)
|
398 |
+
|
399 |
+
pretrained.act_postprocess2 = nn.Sequential(
|
400 |
+
readout_oper[1],
|
401 |
+
Transpose(1, 2),
|
402 |
+
nn.Unflatten(2, torch.Size([size[0] // 16, size[1] // 16])),
|
403 |
+
nn.Conv2d(
|
404 |
+
in_channels=vit_features,
|
405 |
+
out_channels=features[1],
|
406 |
+
kernel_size=1,
|
407 |
+
stride=1,
|
408 |
+
padding=0,
|
409 |
+
),
|
410 |
+
nn.ConvTranspose2d(
|
411 |
+
in_channels=features[1],
|
412 |
+
out_channels=features[1],
|
413 |
+
kernel_size=2,
|
414 |
+
stride=2,
|
415 |
+
padding=0,
|
416 |
+
bias=True,
|
417 |
+
dilation=1,
|
418 |
+
groups=1,
|
419 |
+
),
|
420 |
+
)
|
421 |
+
else:
|
422 |
+
pretrained.act_postprocess1 = nn.Sequential(
|
423 |
+
nn.Identity(), nn.Identity(), nn.Identity()
|
424 |
+
)
|
425 |
+
pretrained.act_postprocess2 = nn.Sequential(
|
426 |
+
nn.Identity(), nn.Identity(), nn.Identity()
|
427 |
+
)
|
428 |
+
|
429 |
+
pretrained.act_postprocess3 = nn.Sequential(
|
430 |
+
readout_oper[2],
|
431 |
+
Transpose(1, 2),
|
432 |
+
nn.Unflatten(2, torch.Size([size[0] // 16, size[1] // 16])),
|
433 |
+
nn.Conv2d(
|
434 |
+
in_channels=vit_features,
|
435 |
+
out_channels=features[2],
|
436 |
+
kernel_size=1,
|
437 |
+
stride=1,
|
438 |
+
padding=0,
|
439 |
+
),
|
440 |
+
)
|
441 |
+
|
442 |
+
pretrained.act_postprocess4 = nn.Sequential(
|
443 |
+
readout_oper[3],
|
444 |
+
Transpose(1, 2),
|
445 |
+
nn.Unflatten(2, torch.Size([size[0] // 16, size[1] // 16])),
|
446 |
+
nn.Conv2d(
|
447 |
+
in_channels=vit_features,
|
448 |
+
out_channels=features[3],
|
449 |
+
kernel_size=1,
|
450 |
+
stride=1,
|
451 |
+
padding=0,
|
452 |
+
),
|
453 |
+
nn.Conv2d(
|
454 |
+
in_channels=features[3],
|
455 |
+
out_channels=features[3],
|
456 |
+
kernel_size=3,
|
457 |
+
stride=2,
|
458 |
+
padding=1,
|
459 |
+
),
|
460 |
+
)
|
461 |
+
|
462 |
+
pretrained.model.start_index = start_index
|
463 |
+
pretrained.model.patch_size = [16, 16]
|
464 |
+
|
465 |
+
# We inject this function into the VisionTransformer instances so that
|
466 |
+
# we can use it with interpolated position embeddings without modifying the library source.
|
467 |
+
pretrained.model.forward_flex = types.MethodType(forward_flex, pretrained.model)
|
468 |
+
|
469 |
+
# We inject this function into the VisionTransformer instances so that
|
470 |
+
# we can use it with interpolated position embeddings without modifying the library source.
|
471 |
+
pretrained.model._resize_pos_embed = types.MethodType(
|
472 |
+
_resize_pos_embed, pretrained.model
|
473 |
+
)
|
474 |
+
|
475 |
+
return pretrained
|
476 |
+
|
477 |
+
|
478 |
+
def _make_pretrained_vitb_rn50_384(
|
479 |
+
pretrained, use_readout="ignore", hooks=None, use_vit_only=False
|
480 |
+
):
|
481 |
+
model = timm.create_model("vit_base_resnet50_384", pretrained=pretrained)
|
482 |
+
|
483 |
+
hooks = [0, 1, 8, 11] if hooks == None else hooks
|
484 |
+
return _make_vit_b_rn50_backbone(
|
485 |
+
model,
|
486 |
+
features=[256, 512, 768, 768],
|
487 |
+
size=[384, 384],
|
488 |
+
hooks=hooks,
|
489 |
+
use_vit_only=use_vit_only,
|
490 |
+
use_readout=use_readout,
|
491 |
+
)
|
ControlNet/annotator/midas/utils.py
ADDED
@@ -0,0 +1,189 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
"""Utils for monoDepth."""
|
2 |
+
import sys
|
3 |
+
import re
|
4 |
+
import numpy as np
|
5 |
+
import cv2
|
6 |
+
import torch
|
7 |
+
|
8 |
+
|
9 |
+
def read_pfm(path):
|
10 |
+
"""Read pfm file.
|
11 |
+
|
12 |
+
Args:
|
13 |
+
path (str): path to file
|
14 |
+
|
15 |
+
Returns:
|
16 |
+
tuple: (data, scale)
|
17 |
+
"""
|
18 |
+
with open(path, "rb") as file:
|
19 |
+
|
20 |
+
color = None
|
21 |
+
width = None
|
22 |
+
height = None
|
23 |
+
scale = None
|
24 |
+
endian = None
|
25 |
+
|
26 |
+
header = file.readline().rstrip()
|
27 |
+
if header.decode("ascii") == "PF":
|
28 |
+
color = True
|
29 |
+
elif header.decode("ascii") == "Pf":
|
30 |
+
color = False
|
31 |
+
else:
|
32 |
+
raise Exception("Not a PFM file: " + path)
|
33 |
+
|
34 |
+
dim_match = re.match(r"^(\d+)\s(\d+)\s$", file.readline().decode("ascii"))
|
35 |
+
if dim_match:
|
36 |
+
width, height = list(map(int, dim_match.groups()))
|
37 |
+
else:
|
38 |
+
raise Exception("Malformed PFM header.")
|
39 |
+
|
40 |
+
scale = float(file.readline().decode("ascii").rstrip())
|
41 |
+
if scale < 0:
|
42 |
+
# little-endian
|
43 |
+
endian = "<"
|
44 |
+
scale = -scale
|
45 |
+
else:
|
46 |
+
# big-endian
|
47 |
+
endian = ">"
|
48 |
+
|
49 |
+
data = np.fromfile(file, endian + "f")
|
50 |
+
shape = (height, width, 3) if color else (height, width)
|
51 |
+
|
52 |
+
data = np.reshape(data, shape)
|
53 |
+
data = np.flipud(data)
|
54 |
+
|
55 |
+
return data, scale
|
56 |
+
|
57 |
+
|
58 |
+
def write_pfm(path, image, scale=1):
|
59 |
+
"""Write pfm file.
|
60 |
+
|
61 |
+
Args:
|
62 |
+
path (str): pathto file
|
63 |
+
image (array): data
|
64 |
+
scale (int, optional): Scale. Defaults to 1.
|
65 |
+
"""
|
66 |
+
|
67 |
+
with open(path, "wb") as file:
|
68 |
+
color = None
|
69 |
+
|
70 |
+
if image.dtype.name != "float32":
|
71 |
+
raise Exception("Image dtype must be float32.")
|
72 |
+
|
73 |
+
image = np.flipud(image)
|
74 |
+
|
75 |
+
if len(image.shape) == 3 and image.shape[2] == 3: # color image
|
76 |
+
color = True
|
77 |
+
elif (
|
78 |
+
len(image.shape) == 2 or len(image.shape) == 3 and image.shape[2] == 1
|
79 |
+
): # greyscale
|
80 |
+
color = False
|
81 |
+
else:
|
82 |
+
raise Exception("Image must have H x W x 3, H x W x 1 or H x W dimensions.")
|
83 |
+
|
84 |
+
file.write("PF\n" if color else "Pf\n".encode())
|
85 |
+
file.write("%d %d\n".encode() % (image.shape[1], image.shape[0]))
|
86 |
+
|
87 |
+
endian = image.dtype.byteorder
|
88 |
+
|
89 |
+
if endian == "<" or endian == "=" and sys.byteorder == "little":
|
90 |
+
scale = -scale
|
91 |
+
|
92 |
+
file.write("%f\n".encode() % scale)
|
93 |
+
|
94 |
+
image.tofile(file)
|
95 |
+
|
96 |
+
|
97 |
+
def read_image(path):
|
98 |
+
"""Read image and output RGB image (0-1).
|
99 |
+
|
100 |
+
Args:
|
101 |
+
path (str): path to file
|
102 |
+
|
103 |
+
Returns:
|
104 |
+
array: RGB image (0-1)
|
105 |
+
"""
|
106 |
+
img = cv2.imread(path)
|
107 |
+
|
108 |
+
if img.ndim == 2:
|
109 |
+
img = cv2.cvtColor(img, cv2.COLOR_GRAY2BGR)
|
110 |
+
|
111 |
+
img = cv2.cvtColor(img, cv2.COLOR_BGR2RGB) / 255.0
|
112 |
+
|
113 |
+
return img
|
114 |
+
|
115 |
+
|
116 |
+
def resize_image(img):
|
117 |
+
"""Resize image and make it fit for network.
|
118 |
+
|
119 |
+
Args:
|
120 |
+
img (array): image
|
121 |
+
|
122 |
+
Returns:
|
123 |
+
tensor: data ready for network
|
124 |
+
"""
|
125 |
+
height_orig = img.shape[0]
|
126 |
+
width_orig = img.shape[1]
|
127 |
+
|
128 |
+
if width_orig > height_orig:
|
129 |
+
scale = width_orig / 384
|
130 |
+
else:
|
131 |
+
scale = height_orig / 384
|
132 |
+
|
133 |
+
height = (np.ceil(height_orig / scale / 32) * 32).astype(int)
|
134 |
+
width = (np.ceil(width_orig / scale / 32) * 32).astype(int)
|
135 |
+
|
136 |
+
img_resized = cv2.resize(img, (width, height), interpolation=cv2.INTER_AREA)
|
137 |
+
|
138 |
+
img_resized = (
|
139 |
+
torch.from_numpy(np.transpose(img_resized, (2, 0, 1))).contiguous().float()
|
140 |
+
)
|
141 |
+
img_resized = img_resized.unsqueeze(0)
|
142 |
+
|
143 |
+
return img_resized
|
144 |
+
|
145 |
+
|
146 |
+
def resize_depth(depth, width, height):
|
147 |
+
"""Resize depth map and bring to CPU (numpy).
|
148 |
+
|
149 |
+
Args:
|
150 |
+
depth (tensor): depth
|
151 |
+
width (int): image width
|
152 |
+
height (int): image height
|
153 |
+
|
154 |
+
Returns:
|
155 |
+
array: processed depth
|
156 |
+
"""
|
157 |
+
depth = torch.squeeze(depth[0, :, :, :]).to("cpu")
|
158 |
+
|
159 |
+
depth_resized = cv2.resize(
|
160 |
+
depth.numpy(), (width, height), interpolation=cv2.INTER_CUBIC
|
161 |
+
)
|
162 |
+
|
163 |
+
return depth_resized
|
164 |
+
|
165 |
+
def write_depth(path, depth, bits=1):
|
166 |
+
"""Write depth map to pfm and png file.
|
167 |
+
|
168 |
+
Args:
|
169 |
+
path (str): filepath without extension
|
170 |
+
depth (array): depth
|
171 |
+
"""
|
172 |
+
write_pfm(path + ".pfm", depth.astype(np.float32))
|
173 |
+
|
174 |
+
depth_min = depth.min()
|
175 |
+
depth_max = depth.max()
|
176 |
+
|
177 |
+
max_val = (2**(8*bits))-1
|
178 |
+
|
179 |
+
if depth_max - depth_min > np.finfo("float").eps:
|
180 |
+
out = max_val * (depth - depth_min) / (depth_max - depth_min)
|
181 |
+
else:
|
182 |
+
out = np.zeros(depth.shape, dtype=depth.type)
|
183 |
+
|
184 |
+
if bits == 1:
|
185 |
+
cv2.imwrite(path + ".png", out.astype("uint8"))
|
186 |
+
elif bits == 2:
|
187 |
+
cv2.imwrite(path + ".png", out.astype("uint16"))
|
188 |
+
|
189 |
+
return
|
ControlNet/annotator/mlsd/LICENSE
ADDED
@@ -0,0 +1,201 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
|
|
|
|
|
|
|
|
|
|
|
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|
|
|
|
|
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|
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|
|
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|
|
|
|
|
|
|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
|
|
|
|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
|
|
|
|
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|
|
|
|
|
|
|
|
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|
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|
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|
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|
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|
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|
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|
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|
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|
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|
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|
|
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|
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|
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|
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|
|
|
|
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|
|
|
|
|
|
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|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
Apache License
|
2 |
+
Version 2.0, January 2004
|
3 |
+
http://www.apache.org/licenses/
|
4 |
+
|
5 |
+
TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION
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ControlNet/annotator/mlsd/__init__.py
ADDED
@@ -0,0 +1,43 @@
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|
1 |
+
# MLSD Line Detection
|
2 |
+
# From https://github.com/navervision/mlsd
|
3 |
+
# Apache-2.0 license
|
4 |
+
|
5 |
+
import cv2
|
6 |
+
import numpy as np
|
7 |
+
import torch
|
8 |
+
import os
|
9 |
+
|
10 |
+
from einops import rearrange
|
11 |
+
from .models.mbv2_mlsd_tiny import MobileV2_MLSD_Tiny
|
12 |
+
from .models.mbv2_mlsd_large import MobileV2_MLSD_Large
|
13 |
+
from .utils import pred_lines
|
14 |
+
|
15 |
+
from annotator.util import annotator_ckpts_path
|
16 |
+
|
17 |
+
|
18 |
+
remote_model_path = "https://huggingface.co/lllyasviel/ControlNet/resolve/main/annotator/ckpts/mlsd_large_512_fp32.pth"
|
19 |
+
|
20 |
+
|
21 |
+
class MLSDdetector:
|
22 |
+
def __init__(self):
|
23 |
+
model_path = os.path.join(annotator_ckpts_path, "mlsd_large_512_fp32.pth")
|
24 |
+
if not os.path.exists(model_path):
|
25 |
+
from basicsr.utils.download_util import load_file_from_url
|
26 |
+
load_file_from_url(remote_model_path, model_dir=annotator_ckpts_path)
|
27 |
+
model = MobileV2_MLSD_Large()
|
28 |
+
model.load_state_dict(torch.load(model_path), strict=True)
|
29 |
+
self.model = model.cuda().eval()
|
30 |
+
|
31 |
+
def __call__(self, input_image, thr_v, thr_d):
|
32 |
+
assert input_image.ndim == 3
|
33 |
+
img = input_image
|
34 |
+
img_output = np.zeros_like(img)
|
35 |
+
try:
|
36 |
+
with torch.no_grad():
|
37 |
+
lines = pred_lines(img, self.model, [img.shape[0], img.shape[1]], thr_v, thr_d)
|
38 |
+
for line in lines:
|
39 |
+
x_start, y_start, x_end, y_end = [int(val) for val in line]
|
40 |
+
cv2.line(img_output, (x_start, y_start), (x_end, y_end), [255, 255, 255], 1)
|
41 |
+
except Exception as e:
|
42 |
+
pass
|
43 |
+
return img_output[:, :, 0]
|
ControlNet/annotator/mlsd/utils.py
ADDED
@@ -0,0 +1,580 @@
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|
1 |
+
'''
|
2 |
+
modified by lihaoweicv
|
3 |
+
pytorch version
|
4 |
+
'''
|
5 |
+
|
6 |
+
'''
|
7 |
+
M-LSD
|
8 |
+
Copyright 2021-present NAVER Corp.
|
9 |
+
Apache License v2.0
|
10 |
+
'''
|
11 |
+
|
12 |
+
import os
|
13 |
+
import numpy as np
|
14 |
+
import cv2
|
15 |
+
import torch
|
16 |
+
from torch.nn import functional as F
|
17 |
+
|
18 |
+
|
19 |
+
def deccode_output_score_and_ptss(tpMap, topk_n = 200, ksize = 5):
|
20 |
+
'''
|
21 |
+
tpMap:
|
22 |
+
center: tpMap[1, 0, :, :]
|
23 |
+
displacement: tpMap[1, 1:5, :, :]
|
24 |
+
'''
|
25 |
+
b, c, h, w = tpMap.shape
|
26 |
+
assert b==1, 'only support bsize==1'
|
27 |
+
displacement = tpMap[:, 1:5, :, :][0]
|
28 |
+
center = tpMap[:, 0, :, :]
|
29 |
+
heat = torch.sigmoid(center)
|
30 |
+
hmax = F.max_pool2d( heat, (ksize, ksize), stride=1, padding=(ksize-1)//2)
|
31 |
+
keep = (hmax == heat).float()
|
32 |
+
heat = heat * keep
|
33 |
+
heat = heat.reshape(-1, )
|
34 |
+
|
35 |
+
scores, indices = torch.topk(heat, topk_n, dim=-1, largest=True)
|
36 |
+
yy = torch.floor_divide(indices, w).unsqueeze(-1)
|
37 |
+
xx = torch.fmod(indices, w).unsqueeze(-1)
|
38 |
+
ptss = torch.cat((yy, xx),dim=-1)
|
39 |
+
|
40 |
+
ptss = ptss.detach().cpu().numpy()
|
41 |
+
scores = scores.detach().cpu().numpy()
|
42 |
+
displacement = displacement.detach().cpu().numpy()
|
43 |
+
displacement = displacement.transpose((1,2,0))
|
44 |
+
return ptss, scores, displacement
|
45 |
+
|
46 |
+
|
47 |
+
def pred_lines(image, model,
|
48 |
+
input_shape=[512, 512],
|
49 |
+
score_thr=0.10,
|
50 |
+
dist_thr=20.0):
|
51 |
+
h, w, _ = image.shape
|
52 |
+
h_ratio, w_ratio = [h / input_shape[0], w / input_shape[1]]
|
53 |
+
|
54 |
+
resized_image = np.concatenate([cv2.resize(image, (input_shape[1], input_shape[0]), interpolation=cv2.INTER_AREA),
|
55 |
+
np.ones([input_shape[0], input_shape[1], 1])], axis=-1)
|
56 |
+
|
57 |
+
resized_image = resized_image.transpose((2,0,1))
|
58 |
+
batch_image = np.expand_dims(resized_image, axis=0).astype('float32')
|
59 |
+
batch_image = (batch_image / 127.5) - 1.0
|
60 |
+
|
61 |
+
batch_image = torch.from_numpy(batch_image).float().cuda()
|
62 |
+
outputs = model(batch_image)
|
63 |
+
pts, pts_score, vmap = deccode_output_score_and_ptss(outputs, 200, 3)
|
64 |
+
start = vmap[:, :, :2]
|
65 |
+
end = vmap[:, :, 2:]
|
66 |
+
dist_map = np.sqrt(np.sum((start - end) ** 2, axis=-1))
|
67 |
+
|
68 |
+
segments_list = []
|
69 |
+
for center, score in zip(pts, pts_score):
|
70 |
+
y, x = center
|
71 |
+
distance = dist_map[y, x]
|
72 |
+
if score > score_thr and distance > dist_thr:
|
73 |
+
disp_x_start, disp_y_start, disp_x_end, disp_y_end = vmap[y, x, :]
|
74 |
+
x_start = x + disp_x_start
|
75 |
+
y_start = y + disp_y_start
|
76 |
+
x_end = x + disp_x_end
|
77 |
+
y_end = y + disp_y_end
|
78 |
+
segments_list.append([x_start, y_start, x_end, y_end])
|
79 |
+
|
80 |
+
lines = 2 * np.array(segments_list) # 256 > 512
|
81 |
+
lines[:, 0] = lines[:, 0] * w_ratio
|
82 |
+
lines[:, 1] = lines[:, 1] * h_ratio
|
83 |
+
lines[:, 2] = lines[:, 2] * w_ratio
|
84 |
+
lines[:, 3] = lines[:, 3] * h_ratio
|
85 |
+
|
86 |
+
return lines
|
87 |
+
|
88 |
+
|
89 |
+
def pred_squares(image,
|
90 |
+
model,
|
91 |
+
input_shape=[512, 512],
|
92 |
+
params={'score': 0.06,
|
93 |
+
'outside_ratio': 0.28,
|
94 |
+
'inside_ratio': 0.45,
|
95 |
+
'w_overlap': 0.0,
|
96 |
+
'w_degree': 1.95,
|
97 |
+
'w_length': 0.0,
|
98 |
+
'w_area': 1.86,
|
99 |
+
'w_center': 0.14}):
|
100 |
+
'''
|
101 |
+
shape = [height, width]
|
102 |
+
'''
|
103 |
+
h, w, _ = image.shape
|
104 |
+
original_shape = [h, w]
|
105 |
+
|
106 |
+
resized_image = np.concatenate([cv2.resize(image, (input_shape[0], input_shape[1]), interpolation=cv2.INTER_AREA),
|
107 |
+
np.ones([input_shape[0], input_shape[1], 1])], axis=-1)
|
108 |
+
resized_image = resized_image.transpose((2, 0, 1))
|
109 |
+
batch_image = np.expand_dims(resized_image, axis=0).astype('float32')
|
110 |
+
batch_image = (batch_image / 127.5) - 1.0
|
111 |
+
|
112 |
+
batch_image = torch.from_numpy(batch_image).float().cuda()
|
113 |
+
outputs = model(batch_image)
|
114 |
+
|
115 |
+
pts, pts_score, vmap = deccode_output_score_and_ptss(outputs, 200, 3)
|
116 |
+
start = vmap[:, :, :2] # (x, y)
|
117 |
+
end = vmap[:, :, 2:] # (x, y)
|
118 |
+
dist_map = np.sqrt(np.sum((start - end) ** 2, axis=-1))
|
119 |
+
|
120 |
+
junc_list = []
|
121 |
+
segments_list = []
|
122 |
+
for junc, score in zip(pts, pts_score):
|
123 |
+
y, x = junc
|
124 |
+
distance = dist_map[y, x]
|
125 |
+
if score > params['score'] and distance > 20.0:
|
126 |
+
junc_list.append([x, y])
|
127 |
+
disp_x_start, disp_y_start, disp_x_end, disp_y_end = vmap[y, x, :]
|
128 |
+
d_arrow = 1.0
|
129 |
+
x_start = x + d_arrow * disp_x_start
|
130 |
+
y_start = y + d_arrow * disp_y_start
|
131 |
+
x_end = x + d_arrow * disp_x_end
|
132 |
+
y_end = y + d_arrow * disp_y_end
|
133 |
+
segments_list.append([x_start, y_start, x_end, y_end])
|
134 |
+
|
135 |
+
segments = np.array(segments_list)
|
136 |
+
|
137 |
+
####### post processing for squares
|
138 |
+
# 1. get unique lines
|
139 |
+
point = np.array([[0, 0]])
|
140 |
+
point = point[0]
|
141 |
+
start = segments[:, :2]
|
142 |
+
end = segments[:, 2:]
|
143 |
+
diff = start - end
|
144 |
+
a = diff[:, 1]
|
145 |
+
b = -diff[:, 0]
|
146 |
+
c = a * start[:, 0] + b * start[:, 1]
|
147 |
+
|
148 |
+
d = np.abs(a * point[0] + b * point[1] - c) / np.sqrt(a ** 2 + b ** 2 + 1e-10)
|
149 |
+
theta = np.arctan2(diff[:, 0], diff[:, 1]) * 180 / np.pi
|
150 |
+
theta[theta < 0.0] += 180
|
151 |
+
hough = np.concatenate([d[:, None], theta[:, None]], axis=-1)
|
152 |
+
|
153 |
+
d_quant = 1
|
154 |
+
theta_quant = 2
|
155 |
+
hough[:, 0] //= d_quant
|
156 |
+
hough[:, 1] //= theta_quant
|
157 |
+
_, indices, counts = np.unique(hough, axis=0, return_index=True, return_counts=True)
|
158 |
+
|
159 |
+
acc_map = np.zeros([512 // d_quant + 1, 360 // theta_quant + 1], dtype='float32')
|
160 |
+
idx_map = np.zeros([512 // d_quant + 1, 360 // theta_quant + 1], dtype='int32') - 1
|
161 |
+
yx_indices = hough[indices, :].astype('int32')
|
162 |
+
acc_map[yx_indices[:, 0], yx_indices[:, 1]] = counts
|
163 |
+
idx_map[yx_indices[:, 0], yx_indices[:, 1]] = indices
|
164 |
+
|
165 |
+
acc_map_np = acc_map
|
166 |
+
# acc_map = acc_map[None, :, :, None]
|
167 |
+
#
|
168 |
+
# ### fast suppression using tensorflow op
|
169 |
+
# acc_map = tf.constant(acc_map, dtype=tf.float32)
|
170 |
+
# max_acc_map = tf.keras.layers.MaxPool2D(pool_size=(5, 5), strides=1, padding='same')(acc_map)
|
171 |
+
# acc_map = acc_map * tf.cast(tf.math.equal(acc_map, max_acc_map), tf.float32)
|
172 |
+
# flatten_acc_map = tf.reshape(acc_map, [1, -1])
|
173 |
+
# topk_values, topk_indices = tf.math.top_k(flatten_acc_map, k=len(pts))
|
174 |
+
# _, h, w, _ = acc_map.shape
|
175 |
+
# y = tf.expand_dims(topk_indices // w, axis=-1)
|
176 |
+
# x = tf.expand_dims(topk_indices % w, axis=-1)
|
177 |
+
# yx = tf.concat([y, x], axis=-1)
|
178 |
+
|
179 |
+
### fast suppression using pytorch op
|
180 |
+
acc_map = torch.from_numpy(acc_map_np).unsqueeze(0).unsqueeze(0)
|
181 |
+
_,_, h, w = acc_map.shape
|
182 |
+
max_acc_map = F.max_pool2d(acc_map,kernel_size=5, stride=1, padding=2)
|
183 |
+
acc_map = acc_map * ( (acc_map == max_acc_map).float() )
|
184 |
+
flatten_acc_map = acc_map.reshape([-1, ])
|
185 |
+
|
186 |
+
scores, indices = torch.topk(flatten_acc_map, len(pts), dim=-1, largest=True)
|
187 |
+
yy = torch.div(indices, w, rounding_mode='floor').unsqueeze(-1)
|
188 |
+
xx = torch.fmod(indices, w).unsqueeze(-1)
|
189 |
+
yx = torch.cat((yy, xx), dim=-1)
|
190 |
+
|
191 |
+
yx = yx.detach().cpu().numpy()
|
192 |
+
|
193 |
+
topk_values = scores.detach().cpu().numpy()
|
194 |
+
indices = idx_map[yx[:, 0], yx[:, 1]]
|
195 |
+
basis = 5 // 2
|
196 |
+
|
197 |
+
merged_segments = []
|
198 |
+
for yx_pt, max_indice, value in zip(yx, indices, topk_values):
|
199 |
+
y, x = yx_pt
|
200 |
+
if max_indice == -1 or value == 0:
|
201 |
+
continue
|
202 |
+
segment_list = []
|
203 |
+
for y_offset in range(-basis, basis + 1):
|
204 |
+
for x_offset in range(-basis, basis + 1):
|
205 |
+
indice = idx_map[y + y_offset, x + x_offset]
|
206 |
+
cnt = int(acc_map_np[y + y_offset, x + x_offset])
|
207 |
+
if indice != -1:
|
208 |
+
segment_list.append(segments[indice])
|
209 |
+
if cnt > 1:
|
210 |
+
check_cnt = 1
|
211 |
+
current_hough = hough[indice]
|
212 |
+
for new_indice, new_hough in enumerate(hough):
|
213 |
+
if (current_hough == new_hough).all() and indice != new_indice:
|
214 |
+
segment_list.append(segments[new_indice])
|
215 |
+
check_cnt += 1
|
216 |
+
if check_cnt == cnt:
|
217 |
+
break
|
218 |
+
group_segments = np.array(segment_list).reshape([-1, 2])
|
219 |
+
sorted_group_segments = np.sort(group_segments, axis=0)
|
220 |
+
x_min, y_min = sorted_group_segments[0, :]
|
221 |
+
x_max, y_max = sorted_group_segments[-1, :]
|
222 |
+
|
223 |
+
deg = theta[max_indice]
|
224 |
+
if deg >= 90:
|
225 |
+
merged_segments.append([x_min, y_max, x_max, y_min])
|
226 |
+
else:
|
227 |
+
merged_segments.append([x_min, y_min, x_max, y_max])
|
228 |
+
|
229 |
+
# 2. get intersections
|
230 |
+
new_segments = np.array(merged_segments) # (x1, y1, x2, y2)
|
231 |
+
start = new_segments[:, :2] # (x1, y1)
|
232 |
+
end = new_segments[:, 2:] # (x2, y2)
|
233 |
+
new_centers = (start + end) / 2.0
|
234 |
+
diff = start - end
|
235 |
+
dist_segments = np.sqrt(np.sum(diff ** 2, axis=-1))
|
236 |
+
|
237 |
+
# ax + by = c
|
238 |
+
a = diff[:, 1]
|
239 |
+
b = -diff[:, 0]
|
240 |
+
c = a * start[:, 0] + b * start[:, 1]
|
241 |
+
pre_det = a[:, None] * b[None, :]
|
242 |
+
det = pre_det - np.transpose(pre_det)
|
243 |
+
|
244 |
+
pre_inter_y = a[:, None] * c[None, :]
|
245 |
+
inter_y = (pre_inter_y - np.transpose(pre_inter_y)) / (det + 1e-10)
|
246 |
+
pre_inter_x = c[:, None] * b[None, :]
|
247 |
+
inter_x = (pre_inter_x - np.transpose(pre_inter_x)) / (det + 1e-10)
|
248 |
+
inter_pts = np.concatenate([inter_x[:, :, None], inter_y[:, :, None]], axis=-1).astype('int32')
|
249 |
+
|
250 |
+
# 3. get corner information
|
251 |
+
# 3.1 get distance
|
252 |
+
'''
|
253 |
+
dist_segments:
|
254 |
+
| dist(0), dist(1), dist(2), ...|
|
255 |
+
dist_inter_to_segment1:
|
256 |
+
| dist(inter,0), dist(inter,0), dist(inter,0), ... |
|
257 |
+
| dist(inter,1), dist(inter,1), dist(inter,1), ... |
|
258 |
+
...
|
259 |
+
dist_inter_to_semgnet2:
|
260 |
+
| dist(inter,0), dist(inter,1), dist(inter,2), ... |
|
261 |
+
| dist(inter,0), dist(inter,1), dist(inter,2), ... |
|
262 |
+
...
|
263 |
+
'''
|
264 |
+
|
265 |
+
dist_inter_to_segment1_start = np.sqrt(
|
266 |
+
np.sum(((inter_pts - start[:, None, :]) ** 2), axis=-1, keepdims=True)) # [n_batch, n_batch, 1]
|
267 |
+
dist_inter_to_segment1_end = np.sqrt(
|
268 |
+
np.sum(((inter_pts - end[:, None, :]) ** 2), axis=-1, keepdims=True)) # [n_batch, n_batch, 1]
|
269 |
+
dist_inter_to_segment2_start = np.sqrt(
|
270 |
+
np.sum(((inter_pts - start[None, :, :]) ** 2), axis=-1, keepdims=True)) # [n_batch, n_batch, 1]
|
271 |
+
dist_inter_to_segment2_end = np.sqrt(
|
272 |
+
np.sum(((inter_pts - end[None, :, :]) ** 2), axis=-1, keepdims=True)) # [n_batch, n_batch, 1]
|
273 |
+
|
274 |
+
# sort ascending
|
275 |
+
dist_inter_to_segment1 = np.sort(
|
276 |
+
np.concatenate([dist_inter_to_segment1_start, dist_inter_to_segment1_end], axis=-1),
|
277 |
+
axis=-1) # [n_batch, n_batch, 2]
|
278 |
+
dist_inter_to_segment2 = np.sort(
|
279 |
+
np.concatenate([dist_inter_to_segment2_start, dist_inter_to_segment2_end], axis=-1),
|
280 |
+
axis=-1) # [n_batch, n_batch, 2]
|
281 |
+
|
282 |
+
# 3.2 get degree
|
283 |
+
inter_to_start = new_centers[:, None, :] - inter_pts
|
284 |
+
deg_inter_to_start = np.arctan2(inter_to_start[:, :, 1], inter_to_start[:, :, 0]) * 180 / np.pi
|
285 |
+
deg_inter_to_start[deg_inter_to_start < 0.0] += 360
|
286 |
+
inter_to_end = new_centers[None, :, :] - inter_pts
|
287 |
+
deg_inter_to_end = np.arctan2(inter_to_end[:, :, 1], inter_to_end[:, :, 0]) * 180 / np.pi
|
288 |
+
deg_inter_to_end[deg_inter_to_end < 0.0] += 360
|
289 |
+
|
290 |
+
'''
|
291 |
+
B -- G
|
292 |
+
| |
|
293 |
+
C -- R
|
294 |
+
B : blue / G: green / C: cyan / R: red
|
295 |
+
|
296 |
+
0 -- 1
|
297 |
+
| |
|
298 |
+
3 -- 2
|
299 |
+
'''
|
300 |
+
# rename variables
|
301 |
+
deg1_map, deg2_map = deg_inter_to_start, deg_inter_to_end
|
302 |
+
# sort deg ascending
|
303 |
+
deg_sort = np.sort(np.concatenate([deg1_map[:, :, None], deg2_map[:, :, None]], axis=-1), axis=-1)
|
304 |
+
|
305 |
+
deg_diff_map = np.abs(deg1_map - deg2_map)
|
306 |
+
# we only consider the smallest degree of intersect
|
307 |
+
deg_diff_map[deg_diff_map > 180] = 360 - deg_diff_map[deg_diff_map > 180]
|
308 |
+
|
309 |
+
# define available degree range
|
310 |
+
deg_range = [60, 120]
|
311 |
+
|
312 |
+
corner_dict = {corner_info: [] for corner_info in range(4)}
|
313 |
+
inter_points = []
|
314 |
+
for i in range(inter_pts.shape[0]):
|
315 |
+
for j in range(i + 1, inter_pts.shape[1]):
|
316 |
+
# i, j > line index, always i < j
|
317 |
+
x, y = inter_pts[i, j, :]
|
318 |
+
deg1, deg2 = deg_sort[i, j, :]
|
319 |
+
deg_diff = deg_diff_map[i, j]
|
320 |
+
|
321 |
+
check_degree = deg_diff > deg_range[0] and deg_diff < deg_range[1]
|
322 |
+
|
323 |
+
outside_ratio = params['outside_ratio'] # over ratio >>> drop it!
|
324 |
+
inside_ratio = params['inside_ratio'] # over ratio >>> drop it!
|
325 |
+
check_distance = ((dist_inter_to_segment1[i, j, 1] >= dist_segments[i] and \
|
326 |
+
dist_inter_to_segment1[i, j, 0] <= dist_segments[i] * outside_ratio) or \
|
327 |
+
(dist_inter_to_segment1[i, j, 1] <= dist_segments[i] and \
|
328 |
+
dist_inter_to_segment1[i, j, 0] <= dist_segments[i] * inside_ratio)) and \
|
329 |
+
((dist_inter_to_segment2[i, j, 1] >= dist_segments[j] and \
|
330 |
+
dist_inter_to_segment2[i, j, 0] <= dist_segments[j] * outside_ratio) or \
|
331 |
+
(dist_inter_to_segment2[i, j, 1] <= dist_segments[j] and \
|
332 |
+
dist_inter_to_segment2[i, j, 0] <= dist_segments[j] * inside_ratio))
|
333 |
+
|
334 |
+
if check_degree and check_distance:
|
335 |
+
corner_info = None
|
336 |
+
|
337 |
+
if (deg1 >= 0 and deg1 <= 45 and deg2 >= 45 and deg2 <= 120) or \
|
338 |
+
(deg2 >= 315 and deg1 >= 45 and deg1 <= 120):
|
339 |
+
corner_info, color_info = 0, 'blue'
|
340 |
+
elif (deg1 >= 45 and deg1 <= 125 and deg2 >= 125 and deg2 <= 225):
|
341 |
+
corner_info, color_info = 1, 'green'
|
342 |
+
elif (deg1 >= 125 and deg1 <= 225 and deg2 >= 225 and deg2 <= 315):
|
343 |
+
corner_info, color_info = 2, 'black'
|
344 |
+
elif (deg1 >= 0 and deg1 <= 45 and deg2 >= 225 and deg2 <= 315) or \
|
345 |
+
(deg2 >= 315 and deg1 >= 225 and deg1 <= 315):
|
346 |
+
corner_info, color_info = 3, 'cyan'
|
347 |
+
else:
|
348 |
+
corner_info, color_info = 4, 'red' # we don't use it
|
349 |
+
continue
|
350 |
+
|
351 |
+
corner_dict[corner_info].append([x, y, i, j])
|
352 |
+
inter_points.append([x, y])
|
353 |
+
|
354 |
+
square_list = []
|
355 |
+
connect_list = []
|
356 |
+
segments_list = []
|
357 |
+
for corner0 in corner_dict[0]:
|
358 |
+
for corner1 in corner_dict[1]:
|
359 |
+
connect01 = False
|
360 |
+
for corner0_line in corner0[2:]:
|
361 |
+
if corner0_line in corner1[2:]:
|
362 |
+
connect01 = True
|
363 |
+
break
|
364 |
+
if connect01:
|
365 |
+
for corner2 in corner_dict[2]:
|
366 |
+
connect12 = False
|
367 |
+
for corner1_line in corner1[2:]:
|
368 |
+
if corner1_line in corner2[2:]:
|
369 |
+
connect12 = True
|
370 |
+
break
|
371 |
+
if connect12:
|
372 |
+
for corner3 in corner_dict[3]:
|
373 |
+
connect23 = False
|
374 |
+
for corner2_line in corner2[2:]:
|
375 |
+
if corner2_line in corner3[2:]:
|
376 |
+
connect23 = True
|
377 |
+
break
|
378 |
+
if connect23:
|
379 |
+
for corner3_line in corner3[2:]:
|
380 |
+
if corner3_line in corner0[2:]:
|
381 |
+
# SQUARE!!!
|
382 |
+
'''
|
383 |
+
0 -- 1
|
384 |
+
| |
|
385 |
+
3 -- 2
|
386 |
+
square_list:
|
387 |
+
order: 0 > 1 > 2 > 3
|
388 |
+
| x0, y0, x1, y1, x2, y2, x3, y3 |
|
389 |
+
| x0, y0, x1, y1, x2, y2, x3, y3 |
|
390 |
+
...
|
391 |
+
connect_list:
|
392 |
+
order: 01 > 12 > 23 > 30
|
393 |
+
| line_idx01, line_idx12, line_idx23, line_idx30 |
|
394 |
+
| line_idx01, line_idx12, line_idx23, line_idx30 |
|
395 |
+
...
|
396 |
+
segments_list:
|
397 |
+
order: 0 > 1 > 2 > 3
|
398 |
+
| line_idx0_i, line_idx0_j, line_idx1_i, line_idx1_j, line_idx2_i, line_idx2_j, line_idx3_i, line_idx3_j |
|
399 |
+
| line_idx0_i, line_idx0_j, line_idx1_i, line_idx1_j, line_idx2_i, line_idx2_j, line_idx3_i, line_idx3_j |
|
400 |
+
...
|
401 |
+
'''
|
402 |
+
square_list.append(corner0[:2] + corner1[:2] + corner2[:2] + corner3[:2])
|
403 |
+
connect_list.append([corner0_line, corner1_line, corner2_line, corner3_line])
|
404 |
+
segments_list.append(corner0[2:] + corner1[2:] + corner2[2:] + corner3[2:])
|
405 |
+
|
406 |
+
def check_outside_inside(segments_info, connect_idx):
|
407 |
+
# return 'outside or inside', min distance, cover_param, peri_param
|
408 |
+
if connect_idx == segments_info[0]:
|
409 |
+
check_dist_mat = dist_inter_to_segment1
|
410 |
+
else:
|
411 |
+
check_dist_mat = dist_inter_to_segment2
|
412 |
+
|
413 |
+
i, j = segments_info
|
414 |
+
min_dist, max_dist = check_dist_mat[i, j, :]
|
415 |
+
connect_dist = dist_segments[connect_idx]
|
416 |
+
if max_dist > connect_dist:
|
417 |
+
return 'outside', min_dist, 0, 1
|
418 |
+
else:
|
419 |
+
return 'inside', min_dist, -1, -1
|
420 |
+
|
421 |
+
top_square = None
|
422 |
+
|
423 |
+
try:
|
424 |
+
map_size = input_shape[0] / 2
|
425 |
+
squares = np.array(square_list).reshape([-1, 4, 2])
|
426 |
+
score_array = []
|
427 |
+
connect_array = np.array(connect_list)
|
428 |
+
segments_array = np.array(segments_list).reshape([-1, 4, 2])
|
429 |
+
|
430 |
+
# get degree of corners:
|
431 |
+
squares_rollup = np.roll(squares, 1, axis=1)
|
432 |
+
squares_rolldown = np.roll(squares, -1, axis=1)
|
433 |
+
vec1 = squares_rollup - squares
|
434 |
+
normalized_vec1 = vec1 / (np.linalg.norm(vec1, axis=-1, keepdims=True) + 1e-10)
|
435 |
+
vec2 = squares_rolldown - squares
|
436 |
+
normalized_vec2 = vec2 / (np.linalg.norm(vec2, axis=-1, keepdims=True) + 1e-10)
|
437 |
+
inner_products = np.sum(normalized_vec1 * normalized_vec2, axis=-1) # [n_squares, 4]
|
438 |
+
squares_degree = np.arccos(inner_products) * 180 / np.pi # [n_squares, 4]
|
439 |
+
|
440 |
+
# get square score
|
441 |
+
overlap_scores = []
|
442 |
+
degree_scores = []
|
443 |
+
length_scores = []
|
444 |
+
|
445 |
+
for connects, segments, square, degree in zip(connect_array, segments_array, squares, squares_degree):
|
446 |
+
'''
|
447 |
+
0 -- 1
|
448 |
+
| |
|
449 |
+
3 -- 2
|
450 |
+
|
451 |
+
# segments: [4, 2]
|
452 |
+
# connects: [4]
|
453 |
+
'''
|
454 |
+
|
455 |
+
###################################### OVERLAP SCORES
|
456 |
+
cover = 0
|
457 |
+
perimeter = 0
|
458 |
+
# check 0 > 1 > 2 > 3
|
459 |
+
square_length = []
|
460 |
+
|
461 |
+
for start_idx in range(4):
|
462 |
+
end_idx = (start_idx + 1) % 4
|
463 |
+
|
464 |
+
connect_idx = connects[start_idx] # segment idx of segment01
|
465 |
+
start_segments = segments[start_idx]
|
466 |
+
end_segments = segments[end_idx]
|
467 |
+
|
468 |
+
start_point = square[start_idx]
|
469 |
+
end_point = square[end_idx]
|
470 |
+
|
471 |
+
# check whether outside or inside
|
472 |
+
start_position, start_min, start_cover_param, start_peri_param = check_outside_inside(start_segments,
|
473 |
+
connect_idx)
|
474 |
+
end_position, end_min, end_cover_param, end_peri_param = check_outside_inside(end_segments, connect_idx)
|
475 |
+
|
476 |
+
cover += dist_segments[connect_idx] + start_cover_param * start_min + end_cover_param * end_min
|
477 |
+
perimeter += dist_segments[connect_idx] + start_peri_param * start_min + end_peri_param * end_min
|
478 |
+
|
479 |
+
square_length.append(
|
480 |
+
dist_segments[connect_idx] + start_peri_param * start_min + end_peri_param * end_min)
|
481 |
+
|
482 |
+
overlap_scores.append(cover / perimeter)
|
483 |
+
######################################
|
484 |
+
###################################### DEGREE SCORES
|
485 |
+
'''
|
486 |
+
deg0 vs deg2
|
487 |
+
deg1 vs deg3
|
488 |
+
'''
|
489 |
+
deg0, deg1, deg2, deg3 = degree
|
490 |
+
deg_ratio1 = deg0 / deg2
|
491 |
+
if deg_ratio1 > 1.0:
|
492 |
+
deg_ratio1 = 1 / deg_ratio1
|
493 |
+
deg_ratio2 = deg1 / deg3
|
494 |
+
if deg_ratio2 > 1.0:
|
495 |
+
deg_ratio2 = 1 / deg_ratio2
|
496 |
+
degree_scores.append((deg_ratio1 + deg_ratio2) / 2)
|
497 |
+
######################################
|
498 |
+
###################################### LENGTH SCORES
|
499 |
+
'''
|
500 |
+
len0 vs len2
|
501 |
+
len1 vs len3
|
502 |
+
'''
|
503 |
+
len0, len1, len2, len3 = square_length
|
504 |
+
len_ratio1 = len0 / len2 if len2 > len0 else len2 / len0
|
505 |
+
len_ratio2 = len1 / len3 if len3 > len1 else len3 / len1
|
506 |
+
length_scores.append((len_ratio1 + len_ratio2) / 2)
|
507 |
+
|
508 |
+
######################################
|
509 |
+
|
510 |
+
overlap_scores = np.array(overlap_scores)
|
511 |
+
overlap_scores /= np.max(overlap_scores)
|
512 |
+
|
513 |
+
degree_scores = np.array(degree_scores)
|
514 |
+
# degree_scores /= np.max(degree_scores)
|
515 |
+
|
516 |
+
length_scores = np.array(length_scores)
|
517 |
+
|
518 |
+
###################################### AREA SCORES
|
519 |
+
area_scores = np.reshape(squares, [-1, 4, 2])
|
520 |
+
area_x = area_scores[:, :, 0]
|
521 |
+
area_y = area_scores[:, :, 1]
|
522 |
+
correction = area_x[:, -1] * area_y[:, 0] - area_y[:, -1] * area_x[:, 0]
|
523 |
+
area_scores = np.sum(area_x[:, :-1] * area_y[:, 1:], axis=-1) - np.sum(area_y[:, :-1] * area_x[:, 1:], axis=-1)
|
524 |
+
area_scores = 0.5 * np.abs(area_scores + correction)
|
525 |
+
area_scores /= (map_size * map_size) # np.max(area_scores)
|
526 |
+
######################################
|
527 |
+
|
528 |
+
###################################### CENTER SCORES
|
529 |
+
centers = np.array([[256 // 2, 256 // 2]], dtype='float32') # [1, 2]
|
530 |
+
# squares: [n, 4, 2]
|
531 |
+
square_centers = np.mean(squares, axis=1) # [n, 2]
|
532 |
+
center2center = np.sqrt(np.sum((centers - square_centers) ** 2))
|
533 |
+
center_scores = center2center / (map_size / np.sqrt(2.0))
|
534 |
+
|
535 |
+
'''
|
536 |
+
score_w = [overlap, degree, area, center, length]
|
537 |
+
'''
|
538 |
+
score_w = [0.0, 1.0, 10.0, 0.5, 1.0]
|
539 |
+
score_array = params['w_overlap'] * overlap_scores \
|
540 |
+
+ params['w_degree'] * degree_scores \
|
541 |
+
+ params['w_area'] * area_scores \
|
542 |
+
- params['w_center'] * center_scores \
|
543 |
+
+ params['w_length'] * length_scores
|
544 |
+
|
545 |
+
best_square = []
|
546 |
+
|
547 |
+
sorted_idx = np.argsort(score_array)[::-1]
|
548 |
+
score_array = score_array[sorted_idx]
|
549 |
+
squares = squares[sorted_idx]
|
550 |
+
|
551 |
+
except Exception as e:
|
552 |
+
pass
|
553 |
+
|
554 |
+
'''return list
|
555 |
+
merged_lines, squares, scores
|
556 |
+
'''
|
557 |
+
|
558 |
+
try:
|
559 |
+
new_segments[:, 0] = new_segments[:, 0] * 2 / input_shape[1] * original_shape[1]
|
560 |
+
new_segments[:, 1] = new_segments[:, 1] * 2 / input_shape[0] * original_shape[0]
|
561 |
+
new_segments[:, 2] = new_segments[:, 2] * 2 / input_shape[1] * original_shape[1]
|
562 |
+
new_segments[:, 3] = new_segments[:, 3] * 2 / input_shape[0] * original_shape[0]
|
563 |
+
except:
|
564 |
+
new_segments = []
|
565 |
+
|
566 |
+
try:
|
567 |
+
squares[:, :, 0] = squares[:, :, 0] * 2 / input_shape[1] * original_shape[1]
|
568 |
+
squares[:, :, 1] = squares[:, :, 1] * 2 / input_shape[0] * original_shape[0]
|
569 |
+
except:
|
570 |
+
squares = []
|
571 |
+
score_array = []
|
572 |
+
|
573 |
+
try:
|
574 |
+
inter_points = np.array(inter_points)
|
575 |
+
inter_points[:, 0] = inter_points[:, 0] * 2 / input_shape[1] * original_shape[1]
|
576 |
+
inter_points[:, 1] = inter_points[:, 1] * 2 / input_shape[0] * original_shape[0]
|
577 |
+
except:
|
578 |
+
inter_points = []
|
579 |
+
|
580 |
+
return new_segments, squares, score_array, inter_points
|
ControlNet/annotator/openpose/LICENSE
ADDED
@@ -0,0 +1,108 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
OPENPOSE: MULTIPERSON KEYPOINT DETECTION
|
2 |
+
SOFTWARE LICENSE AGREEMENT
|
3 |
+
ACADEMIC OR NON-PROFIT ORGANIZATION NONCOMMERCIAL RESEARCH USE ONLY
|
4 |
+
|
5 |
+
BY USING OR DOWNLOADING THE SOFTWARE, YOU ARE AGREEING TO THE TERMS OF THIS LICENSE AGREEMENT. IF YOU DO NOT AGREE WITH THESE TERMS, YOU MAY NOT USE OR DOWNLOAD THE SOFTWARE.
|
6 |
+
|
7 |
+
This is a license agreement ("Agreement") between your academic institution or non-profit organization or self (called "Licensee" or "You" in this Agreement) and Carnegie Mellon University (called "Licensor" in this Agreement). All rights not specifically granted to you in this Agreement are reserved for Licensor.
|
8 |
+
|
9 |
+
RESERVATION OF OWNERSHIP AND GRANT OF LICENSE:
|
10 |
+
Licensor retains exclusive ownership of any copy of the Software (as defined below) licensed under this Agreement and hereby grants to Licensee a personal, non-exclusive,
|
11 |
+
non-transferable license to use the Software for noncommercial research purposes, without the right to sublicense, pursuant to the terms and conditions of this Agreement. As used in this Agreement, the term "Software" means (i) the actual copy of all or any portion of code for program routines made accessible to Licensee by Licensor pursuant to this Agreement, inclusive of backups, updates, and/or merged copies permitted hereunder or subsequently supplied by Licensor, including all or any file structures, programming instructions, user interfaces and screen formats and sequences as well as any and all documentation and instructions related to it, and (ii) all or any derivatives and/or modifications created or made by You to any of the items specified in (i).
|
12 |
+
|
13 |
+
CONFIDENTIALITY: Licensee acknowledges that the Software is proprietary to Licensor, and as such, Licensee agrees to receive all such materials in confidence and use the Software only in accordance with the terms of this Agreement. Licensee agrees to use reasonable effort to protect the Software from unauthorized use, reproduction, distribution, or publication.
|
14 |
+
|
15 |
+
COPYRIGHT: The Software is owned by Licensor and is protected by United
|
16 |
+
States copyright laws and applicable international treaties and/or conventions.
|
17 |
+
|
18 |
+
PERMITTED USES: The Software may be used for your own noncommercial internal research purposes. You understand and agree that Licensor is not obligated to implement any suggestions and/or feedback you might provide regarding the Software, but to the extent Licensor does so, you are not entitled to any compensation related thereto.
|
19 |
+
|
20 |
+
DERIVATIVES: You may create derivatives of or make modifications to the Software, however, You agree that all and any such derivatives and modifications will be owned by Licensor and become a part of the Software licensed to You under this Agreement. You may only use such derivatives and modifications for your own noncommercial internal research purposes, and you may not otherwise use, distribute or copy such derivatives and modifications in violation of this Agreement.
|
21 |
+
|
22 |
+
BACKUPS: If Licensee is an organization, it may make that number of copies of the Software necessary for internal noncommercial use at a single site within its organization provided that all information appearing in or on the original labels, including the copyright and trademark notices are copied onto the labels of the copies.
|
23 |
+
|
24 |
+
USES NOT PERMITTED: You may not distribute, copy or use the Software except as explicitly permitted herein. Licensee has not been granted any trademark license as part of this Agreement and may not use the name or mark “OpenPose", "Carnegie Mellon" or any renditions thereof without the prior written permission of Licensor.
|
25 |
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|
26 |
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You may not sell, rent, lease, sublicense, lend, time-share or transfer, in whole or in part, or provide third parties access to prior or present versions (or any parts thereof) of the Software.
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28 |
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ASSIGNMENT: You may not assign this Agreement or your rights hereunder without the prior written consent of Licensor. Any attempted assignment without such consent shall be null and void.
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TERM: The term of the license granted by this Agreement is from Licensee's acceptance of this Agreement by downloading the Software or by using the Software until terminated as provided below.
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The Agreement automatically terminates without notice if you fail to comply with any provision of this Agreement. Licensee may terminate this Agreement by ceasing using the Software. Upon any termination of this Agreement, Licensee will delete any and all copies of the Software. You agree that all provisions which operate to protect the proprietary rights of Licensor shall remain in force should breach occur and that the obligation of confidentiality described in this Agreement is binding in perpetuity and, as such, survives the term of the Agreement.
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FEE: Provided Licensee abides completely by the terms and conditions of this Agreement, there is no fee due to Licensor for Licensee's use of the Software in accordance with this Agreement.
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DISCLAIMER OF WARRANTIES: THE SOFTWARE IS PROVIDED "AS-IS" WITHOUT WARRANTY OF ANY KIND INCLUDING ANY WARRANTIES OF PERFORMANCE OR MERCHANTABILITY OR FITNESS FOR A PARTICULAR USE OR PURPOSE OR OF NON-INFRINGEMENT. LICENSEE BEARS ALL RISK RELATING TO QUALITY AND PERFORMANCE OF THE SOFTWARE AND RELATED MATERIALS.
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SUPPORT AND MAINTENANCE: No Software support or training by the Licensor is provided as part of this Agreement.
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EXCLUSIVE REMEDY AND LIMITATION OF LIABILITY: To the maximum extent permitted under applicable law, Licensor shall not be liable for direct, indirect, special, incidental, or consequential damages or lost profits related to Licensee's use of and/or inability to use the Software, even if Licensor is advised of the possibility of such damage.
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EXPORT REGULATION: Licensee agrees to comply with any and all applicable
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SEVERABILITY: If any provision(s) of this Agreement shall be held to be invalid, illegal, or unenforceable by a court or other tribunal of competent jurisdiction, the validity, legality and enforceability of the remaining provisions shall not in any way be affected or impaired thereby.
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NO IMPLIED WAIVERS: No failure or delay by Licensor in enforcing any right or remedy under this Agreement shall be construed as a waiver of any future or other exercise of such right or remedy by Licensor.
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GOVERNING LAW: This Agreement shall be construed and enforced in accordance with the laws of the Commonwealth of Pennsylvania without reference to conflict of laws principles. You consent to the personal jurisdiction of the courts of this County and waive their rights to venue outside of Allegheny County, Pennsylvania.
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ENTIRE AGREEMENT AND AMENDMENTS: This Agreement constitutes the sole and entire agreement between Licensee and Licensor as to the matter set forth herein and supersedes any previous agreements, understandings, and arrangements between the parties relating hereto.
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|
55 |
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************************************************************************
|
56 |
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|
57 |
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THIRD-PARTY SOFTWARE NOTICES AND INFORMATION
|
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|
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This project incorporates material from the project(s) listed below (collectively, "Third Party Code"). This Third Party Code is licensed to you under their original license terms set forth below. We reserves all other rights not expressly granted, whether by implication, estoppel or otherwise.
|
60 |
+
|
61 |
+
1. Caffe, version 1.0.0, (https://github.com/BVLC/caffe/)
|
62 |
+
|
63 |
+
COPYRIGHT
|
64 |
+
|
65 |
+
All contributions by the University of California:
|
66 |
+
Copyright (c) 2014-2017 The Regents of the University of California (Regents)
|
67 |
+
All rights reserved.
|
68 |
+
|
69 |
+
All other contributions:
|
70 |
+
Copyright (c) 2014-2017, the respective contributors
|
71 |
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All rights reserved.
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72 |
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|
73 |
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Caffe uses a shared copyright model: each contributor holds copyright over
|
74 |
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75 |
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contribution and copyright details. If a contributor wants to further mark
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their specific copyright on a particular contribution, they should indicate
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their copyright solely in the commit message of the change when it is
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committed.
|
79 |
+
|
80 |
+
LICENSE
|
81 |
+
|
82 |
+
Redistribution and use in source and binary forms, with or without
|
83 |
+
modification, are permitted provided that the following conditions are met:
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+
|
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1. Redistributions of source code must retain the above copyright notice, this
|
86 |
+
list of conditions and the following disclaimer.
|
87 |
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2. Redistributions in binary form must reproduce the above copyright notice,
|
88 |
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and/or other materials provided with the distribution.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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CONTRIBUTION AGREEMENT
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|
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By contributing to the BVLC/caffe repository through pull-request, comment,
|
105 |
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or otherwise, the contributor releases their content to the
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+
license and copyright terms herein.
|
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+
|
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************END OF THIRD-PARTY SOFTWARE NOTICES AND INFORMATION**********
|
ControlNet/annotator/openpose/__init__.py
ADDED
@@ -0,0 +1,49 @@
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1 |
+
# Openpose
|
2 |
+
# Original from CMU https://github.com/CMU-Perceptual-Computing-Lab/openpose
|
3 |
+
# 2nd Edited by https://github.com/Hzzone/pytorch-openpose
|
4 |
+
# 3rd Edited by ControlNet
|
5 |
+
|
6 |
+
import os
|
7 |
+
os.environ["KMP_DUPLICATE_LIB_OK"]="TRUE"
|
8 |
+
|
9 |
+
import torch
|
10 |
+
import numpy as np
|
11 |
+
from . import util
|
12 |
+
from .body import Body
|
13 |
+
from .hand import Hand
|
14 |
+
from annotator.util import annotator_ckpts_path
|
15 |
+
|
16 |
+
|
17 |
+
body_model_path = "https://huggingface.co/lllyasviel/ControlNet/resolve/main/annotator/ckpts/body_pose_model.pth"
|
18 |
+
hand_model_path = "https://huggingface.co/lllyasviel/ControlNet/resolve/main/annotator/ckpts/hand_pose_model.pth"
|
19 |
+
|
20 |
+
|
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+
class OpenposeDetector:
|
22 |
+
def __init__(self):
|
23 |
+
body_modelpath = os.path.join(annotator_ckpts_path, "body_pose_model.pth")
|
24 |
+
hand_modelpath = os.path.join(annotator_ckpts_path, "hand_pose_model.pth")
|
25 |
+
|
26 |
+
if not os.path.exists(hand_modelpath):
|
27 |
+
from basicsr.utils.download_util import load_file_from_url
|
28 |
+
load_file_from_url(body_model_path, model_dir=annotator_ckpts_path)
|
29 |
+
load_file_from_url(hand_model_path, model_dir=annotator_ckpts_path)
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30 |
+
|
31 |
+
self.body_estimation = Body(body_modelpath)
|
32 |
+
self.hand_estimation = Hand(hand_modelpath)
|
33 |
+
|
34 |
+
def __call__(self, oriImg, hand=False):
|
35 |
+
oriImg = oriImg[:, :, ::-1].copy()
|
36 |
+
with torch.no_grad():
|
37 |
+
candidate, subset = self.body_estimation(oriImg)
|
38 |
+
canvas = np.zeros_like(oriImg)
|
39 |
+
canvas = util.draw_bodypose(canvas, candidate, subset)
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40 |
+
if hand:
|
41 |
+
hands_list = util.handDetect(candidate, subset, oriImg)
|
42 |
+
all_hand_peaks = []
|
43 |
+
for x, y, w, is_left in hands_list:
|
44 |
+
peaks = self.hand_estimation(oriImg[y:y+w, x:x+w, :])
|
45 |
+
peaks[:, 0] = np.where(peaks[:, 0] == 0, peaks[:, 0], peaks[:, 0] + x)
|
46 |
+
peaks[:, 1] = np.where(peaks[:, 1] == 0, peaks[:, 1], peaks[:, 1] + y)
|
47 |
+
all_hand_peaks.append(peaks)
|
48 |
+
canvas = util.draw_handpose(canvas, all_hand_peaks)
|
49 |
+
return canvas, dict(candidate=candidate.tolist(), subset=subset.tolist())
|
ControlNet/annotator/openpose/body.py
ADDED
@@ -0,0 +1,219 @@
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|
1 |
+
import cv2
|
2 |
+
import numpy as np
|
3 |
+
import math
|
4 |
+
import time
|
5 |
+
from scipy.ndimage.filters import gaussian_filter
|
6 |
+
import matplotlib.pyplot as plt
|
7 |
+
import matplotlib
|
8 |
+
import torch
|
9 |
+
from torchvision import transforms
|
10 |
+
|
11 |
+
from . import util
|
12 |
+
from .model import bodypose_model
|
13 |
+
|
14 |
+
class Body(object):
|
15 |
+
def __init__(self, model_path):
|
16 |
+
self.model = bodypose_model()
|
17 |
+
if torch.cuda.is_available():
|
18 |
+
self.model = self.model.cuda()
|
19 |
+
print('cuda')
|
20 |
+
model_dict = util.transfer(self.model, torch.load(model_path))
|
21 |
+
self.model.load_state_dict(model_dict)
|
22 |
+
self.model.eval()
|
23 |
+
|
24 |
+
def __call__(self, oriImg):
|
25 |
+
# scale_search = [0.5, 1.0, 1.5, 2.0]
|
26 |
+
scale_search = [0.5]
|
27 |
+
boxsize = 368
|
28 |
+
stride = 8
|
29 |
+
padValue = 128
|
30 |
+
thre1 = 0.1
|
31 |
+
thre2 = 0.05
|
32 |
+
multiplier = [x * boxsize / oriImg.shape[0] for x in scale_search]
|
33 |
+
heatmap_avg = np.zeros((oriImg.shape[0], oriImg.shape[1], 19))
|
34 |
+
paf_avg = np.zeros((oriImg.shape[0], oriImg.shape[1], 38))
|
35 |
+
|
36 |
+
for m in range(len(multiplier)):
|
37 |
+
scale = multiplier[m]
|
38 |
+
imageToTest = cv2.resize(oriImg, (0, 0), fx=scale, fy=scale, interpolation=cv2.INTER_CUBIC)
|
39 |
+
imageToTest_padded, pad = util.padRightDownCorner(imageToTest, stride, padValue)
|
40 |
+
im = np.transpose(np.float32(imageToTest_padded[:, :, :, np.newaxis]), (3, 2, 0, 1)) / 256 - 0.5
|
41 |
+
im = np.ascontiguousarray(im)
|
42 |
+
|
43 |
+
data = torch.from_numpy(im).float()
|
44 |
+
if torch.cuda.is_available():
|
45 |
+
data = data.cuda()
|
46 |
+
# data = data.permute([2, 0, 1]).unsqueeze(0).float()
|
47 |
+
with torch.no_grad():
|
48 |
+
Mconv7_stage6_L1, Mconv7_stage6_L2 = self.model(data)
|
49 |
+
Mconv7_stage6_L1 = Mconv7_stage6_L1.cpu().numpy()
|
50 |
+
Mconv7_stage6_L2 = Mconv7_stage6_L2.cpu().numpy()
|
51 |
+
|
52 |
+
# extract outputs, resize, and remove padding
|
53 |
+
# heatmap = np.transpose(np.squeeze(net.blobs[output_blobs.keys()[1]].data), (1, 2, 0)) # output 1 is heatmaps
|
54 |
+
heatmap = np.transpose(np.squeeze(Mconv7_stage6_L2), (1, 2, 0)) # output 1 is heatmaps
|
55 |
+
heatmap = cv2.resize(heatmap, (0, 0), fx=stride, fy=stride, interpolation=cv2.INTER_CUBIC)
|
56 |
+
heatmap = heatmap[:imageToTest_padded.shape[0] - pad[2], :imageToTest_padded.shape[1] - pad[3], :]
|
57 |
+
heatmap = cv2.resize(heatmap, (oriImg.shape[1], oriImg.shape[0]), interpolation=cv2.INTER_CUBIC)
|
58 |
+
|
59 |
+
# paf = np.transpose(np.squeeze(net.blobs[output_blobs.keys()[0]].data), (1, 2, 0)) # output 0 is PAFs
|
60 |
+
paf = np.transpose(np.squeeze(Mconv7_stage6_L1), (1, 2, 0)) # output 0 is PAFs
|
61 |
+
paf = cv2.resize(paf, (0, 0), fx=stride, fy=stride, interpolation=cv2.INTER_CUBIC)
|
62 |
+
paf = paf[:imageToTest_padded.shape[0] - pad[2], :imageToTest_padded.shape[1] - pad[3], :]
|
63 |
+
paf = cv2.resize(paf, (oriImg.shape[1], oriImg.shape[0]), interpolation=cv2.INTER_CUBIC)
|
64 |
+
|
65 |
+
heatmap_avg += heatmap_avg + heatmap / len(multiplier)
|
66 |
+
paf_avg += + paf / len(multiplier)
|
67 |
+
|
68 |
+
all_peaks = []
|
69 |
+
peak_counter = 0
|
70 |
+
|
71 |
+
for part in range(18):
|
72 |
+
map_ori = heatmap_avg[:, :, part]
|
73 |
+
one_heatmap = gaussian_filter(map_ori, sigma=3)
|
74 |
+
|
75 |
+
map_left = np.zeros(one_heatmap.shape)
|
76 |
+
map_left[1:, :] = one_heatmap[:-1, :]
|
77 |
+
map_right = np.zeros(one_heatmap.shape)
|
78 |
+
map_right[:-1, :] = one_heatmap[1:, :]
|
79 |
+
map_up = np.zeros(one_heatmap.shape)
|
80 |
+
map_up[:, 1:] = one_heatmap[:, :-1]
|
81 |
+
map_down = np.zeros(one_heatmap.shape)
|
82 |
+
map_down[:, :-1] = one_heatmap[:, 1:]
|
83 |
+
|
84 |
+
peaks_binary = np.logical_and.reduce(
|
85 |
+
(one_heatmap >= map_left, one_heatmap >= map_right, one_heatmap >= map_up, one_heatmap >= map_down, one_heatmap > thre1))
|
86 |
+
peaks = list(zip(np.nonzero(peaks_binary)[1], np.nonzero(peaks_binary)[0])) # note reverse
|
87 |
+
peaks_with_score = [x + (map_ori[x[1], x[0]],) for x in peaks]
|
88 |
+
peak_id = range(peak_counter, peak_counter + len(peaks))
|
89 |
+
peaks_with_score_and_id = [peaks_with_score[i] + (peak_id[i],) for i in range(len(peak_id))]
|
90 |
+
|
91 |
+
all_peaks.append(peaks_with_score_and_id)
|
92 |
+
peak_counter += len(peaks)
|
93 |
+
|
94 |
+
# find connection in the specified sequence, center 29 is in the position 15
|
95 |
+
limbSeq = [[2, 3], [2, 6], [3, 4], [4, 5], [6, 7], [7, 8], [2, 9], [9, 10], \
|
96 |
+
[10, 11], [2, 12], [12, 13], [13, 14], [2, 1], [1, 15], [15, 17], \
|
97 |
+
[1, 16], [16, 18], [3, 17], [6, 18]]
|
98 |
+
# the middle joints heatmap correpondence
|
99 |
+
mapIdx = [[31, 32], [39, 40], [33, 34], [35, 36], [41, 42], [43, 44], [19, 20], [21, 22], \
|
100 |
+
[23, 24], [25, 26], [27, 28], [29, 30], [47, 48], [49, 50], [53, 54], [51, 52], \
|
101 |
+
[55, 56], [37, 38], [45, 46]]
|
102 |
+
|
103 |
+
connection_all = []
|
104 |
+
special_k = []
|
105 |
+
mid_num = 10
|
106 |
+
|
107 |
+
for k in range(len(mapIdx)):
|
108 |
+
score_mid = paf_avg[:, :, [x - 19 for x in mapIdx[k]]]
|
109 |
+
candA = all_peaks[limbSeq[k][0] - 1]
|
110 |
+
candB = all_peaks[limbSeq[k][1] - 1]
|
111 |
+
nA = len(candA)
|
112 |
+
nB = len(candB)
|
113 |
+
indexA, indexB = limbSeq[k]
|
114 |
+
if (nA != 0 and nB != 0):
|
115 |
+
connection_candidate = []
|
116 |
+
for i in range(nA):
|
117 |
+
for j in range(nB):
|
118 |
+
vec = np.subtract(candB[j][:2], candA[i][:2])
|
119 |
+
norm = math.sqrt(vec[0] * vec[0] + vec[1] * vec[1])
|
120 |
+
norm = max(0.001, norm)
|
121 |
+
vec = np.divide(vec, norm)
|
122 |
+
|
123 |
+
startend = list(zip(np.linspace(candA[i][0], candB[j][0], num=mid_num), \
|
124 |
+
np.linspace(candA[i][1], candB[j][1], num=mid_num)))
|
125 |
+
|
126 |
+
vec_x = np.array([score_mid[int(round(startend[I][1])), int(round(startend[I][0])), 0] \
|
127 |
+
for I in range(len(startend))])
|
128 |
+
vec_y = np.array([score_mid[int(round(startend[I][1])), int(round(startend[I][0])), 1] \
|
129 |
+
for I in range(len(startend))])
|
130 |
+
|
131 |
+
score_midpts = np.multiply(vec_x, vec[0]) + np.multiply(vec_y, vec[1])
|
132 |
+
score_with_dist_prior = sum(score_midpts) / len(score_midpts) + min(
|
133 |
+
0.5 * oriImg.shape[0] / norm - 1, 0)
|
134 |
+
criterion1 = len(np.nonzero(score_midpts > thre2)[0]) > 0.8 * len(score_midpts)
|
135 |
+
criterion2 = score_with_dist_prior > 0
|
136 |
+
if criterion1 and criterion2:
|
137 |
+
connection_candidate.append(
|
138 |
+
[i, j, score_with_dist_prior, score_with_dist_prior + candA[i][2] + candB[j][2]])
|
139 |
+
|
140 |
+
connection_candidate = sorted(connection_candidate, key=lambda x: x[2], reverse=True)
|
141 |
+
connection = np.zeros((0, 5))
|
142 |
+
for c in range(len(connection_candidate)):
|
143 |
+
i, j, s = connection_candidate[c][0:3]
|
144 |
+
if (i not in connection[:, 3] and j not in connection[:, 4]):
|
145 |
+
connection = np.vstack([connection, [candA[i][3], candB[j][3], s, i, j]])
|
146 |
+
if (len(connection) >= min(nA, nB)):
|
147 |
+
break
|
148 |
+
|
149 |
+
connection_all.append(connection)
|
150 |
+
else:
|
151 |
+
special_k.append(k)
|
152 |
+
connection_all.append([])
|
153 |
+
|
154 |
+
# last number in each row is the total parts number of that person
|
155 |
+
# the second last number in each row is the score of the overall configuration
|
156 |
+
subset = -1 * np.ones((0, 20))
|
157 |
+
candidate = np.array([item for sublist in all_peaks for item in sublist])
|
158 |
+
|
159 |
+
for k in range(len(mapIdx)):
|
160 |
+
if k not in special_k:
|
161 |
+
partAs = connection_all[k][:, 0]
|
162 |
+
partBs = connection_all[k][:, 1]
|
163 |
+
indexA, indexB = np.array(limbSeq[k]) - 1
|
164 |
+
|
165 |
+
for i in range(len(connection_all[k])): # = 1:size(temp,1)
|
166 |
+
found = 0
|
167 |
+
subset_idx = [-1, -1]
|
168 |
+
for j in range(len(subset)): # 1:size(subset,1):
|
169 |
+
if subset[j][indexA] == partAs[i] or subset[j][indexB] == partBs[i]:
|
170 |
+
subset_idx[found] = j
|
171 |
+
found += 1
|
172 |
+
|
173 |
+
if found == 1:
|
174 |
+
j = subset_idx[0]
|
175 |
+
if subset[j][indexB] != partBs[i]:
|
176 |
+
subset[j][indexB] = partBs[i]
|
177 |
+
subset[j][-1] += 1
|
178 |
+
subset[j][-2] += candidate[partBs[i].astype(int), 2] + connection_all[k][i][2]
|
179 |
+
elif found == 2: # if found 2 and disjoint, merge them
|
180 |
+
j1, j2 = subset_idx
|
181 |
+
membership = ((subset[j1] >= 0).astype(int) + (subset[j2] >= 0).astype(int))[:-2]
|
182 |
+
if len(np.nonzero(membership == 2)[0]) == 0: # merge
|
183 |
+
subset[j1][:-2] += (subset[j2][:-2] + 1)
|
184 |
+
subset[j1][-2:] += subset[j2][-2:]
|
185 |
+
subset[j1][-2] += connection_all[k][i][2]
|
186 |
+
subset = np.delete(subset, j2, 0)
|
187 |
+
else: # as like found == 1
|
188 |
+
subset[j1][indexB] = partBs[i]
|
189 |
+
subset[j1][-1] += 1
|
190 |
+
subset[j1][-2] += candidate[partBs[i].astype(int), 2] + connection_all[k][i][2]
|
191 |
+
|
192 |
+
# if find no partA in the subset, create a new subset
|
193 |
+
elif not found and k < 17:
|
194 |
+
row = -1 * np.ones(20)
|
195 |
+
row[indexA] = partAs[i]
|
196 |
+
row[indexB] = partBs[i]
|
197 |
+
row[-1] = 2
|
198 |
+
row[-2] = sum(candidate[connection_all[k][i, :2].astype(int), 2]) + connection_all[k][i][2]
|
199 |
+
subset = np.vstack([subset, row])
|
200 |
+
# delete some rows of subset which has few parts occur
|
201 |
+
deleteIdx = []
|
202 |
+
for i in range(len(subset)):
|
203 |
+
if subset[i][-1] < 4 or subset[i][-2] / subset[i][-1] < 0.4:
|
204 |
+
deleteIdx.append(i)
|
205 |
+
subset = np.delete(subset, deleteIdx, axis=0)
|
206 |
+
|
207 |
+
# subset: n*20 array, 0-17 is the index in candidate, 18 is the total score, 19 is the total parts
|
208 |
+
# candidate: x, y, score, id
|
209 |
+
return candidate, subset
|
210 |
+
|
211 |
+
if __name__ == "__main__":
|
212 |
+
body_estimation = Body('../model/body_pose_model.pth')
|
213 |
+
|
214 |
+
test_image = '../images/ski.jpg'
|
215 |
+
oriImg = cv2.imread(test_image) # B,G,R order
|
216 |
+
candidate, subset = body_estimation(oriImg)
|
217 |
+
canvas = util.draw_bodypose(oriImg, candidate, subset)
|
218 |
+
plt.imshow(canvas[:, :, [2, 1, 0]])
|
219 |
+
plt.show()
|
ControlNet/annotator/openpose/hand.py
ADDED
@@ -0,0 +1,86 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
import cv2
|
2 |
+
import json
|
3 |
+
import numpy as np
|
4 |
+
import math
|
5 |
+
import time
|
6 |
+
from scipy.ndimage.filters import gaussian_filter
|
7 |
+
import matplotlib.pyplot as plt
|
8 |
+
import matplotlib
|
9 |
+
import torch
|
10 |
+
from skimage.measure import label
|
11 |
+
|
12 |
+
from .model import handpose_model
|
13 |
+
from . import util
|
14 |
+
|
15 |
+
class Hand(object):
|
16 |
+
def __init__(self, model_path):
|
17 |
+
self.model = handpose_model()
|
18 |
+
if torch.cuda.is_available():
|
19 |
+
self.model = self.model.cuda()
|
20 |
+
print('cuda')
|
21 |
+
model_dict = util.transfer(self.model, torch.load(model_path))
|
22 |
+
self.model.load_state_dict(model_dict)
|
23 |
+
self.model.eval()
|
24 |
+
|
25 |
+
def __call__(self, oriImg):
|
26 |
+
scale_search = [0.5, 1.0, 1.5, 2.0]
|
27 |
+
# scale_search = [0.5]
|
28 |
+
boxsize = 368
|
29 |
+
stride = 8
|
30 |
+
padValue = 128
|
31 |
+
thre = 0.05
|
32 |
+
multiplier = [x * boxsize / oriImg.shape[0] for x in scale_search]
|
33 |
+
heatmap_avg = np.zeros((oriImg.shape[0], oriImg.shape[1], 22))
|
34 |
+
# paf_avg = np.zeros((oriImg.shape[0], oriImg.shape[1], 38))
|
35 |
+
|
36 |
+
for m in range(len(multiplier)):
|
37 |
+
scale = multiplier[m]
|
38 |
+
imageToTest = cv2.resize(oriImg, (0, 0), fx=scale, fy=scale, interpolation=cv2.INTER_CUBIC)
|
39 |
+
imageToTest_padded, pad = util.padRightDownCorner(imageToTest, stride, padValue)
|
40 |
+
im = np.transpose(np.float32(imageToTest_padded[:, :, :, np.newaxis]), (3, 2, 0, 1)) / 256 - 0.5
|
41 |
+
im = np.ascontiguousarray(im)
|
42 |
+
|
43 |
+
data = torch.from_numpy(im).float()
|
44 |
+
if torch.cuda.is_available():
|
45 |
+
data = data.cuda()
|
46 |
+
# data = data.permute([2, 0, 1]).unsqueeze(0).float()
|
47 |
+
with torch.no_grad():
|
48 |
+
output = self.model(data).cpu().numpy()
|
49 |
+
# output = self.model(data).numpy()q
|
50 |
+
|
51 |
+
# extract outputs, resize, and remove padding
|
52 |
+
heatmap = np.transpose(np.squeeze(output), (1, 2, 0)) # output 1 is heatmaps
|
53 |
+
heatmap = cv2.resize(heatmap, (0, 0), fx=stride, fy=stride, interpolation=cv2.INTER_CUBIC)
|
54 |
+
heatmap = heatmap[:imageToTest_padded.shape[0] - pad[2], :imageToTest_padded.shape[1] - pad[3], :]
|
55 |
+
heatmap = cv2.resize(heatmap, (oriImg.shape[1], oriImg.shape[0]), interpolation=cv2.INTER_CUBIC)
|
56 |
+
|
57 |
+
heatmap_avg += heatmap / len(multiplier)
|
58 |
+
|
59 |
+
all_peaks = []
|
60 |
+
for part in range(21):
|
61 |
+
map_ori = heatmap_avg[:, :, part]
|
62 |
+
one_heatmap = gaussian_filter(map_ori, sigma=3)
|
63 |
+
binary = np.ascontiguousarray(one_heatmap > thre, dtype=np.uint8)
|
64 |
+
# 全部小于阈值
|
65 |
+
if np.sum(binary) == 0:
|
66 |
+
all_peaks.append([0, 0])
|
67 |
+
continue
|
68 |
+
label_img, label_numbers = label(binary, return_num=True, connectivity=binary.ndim)
|
69 |
+
max_index = np.argmax([np.sum(map_ori[label_img == i]) for i in range(1, label_numbers + 1)]) + 1
|
70 |
+
label_img[label_img != max_index] = 0
|
71 |
+
map_ori[label_img == 0] = 0
|
72 |
+
|
73 |
+
y, x = util.npmax(map_ori)
|
74 |
+
all_peaks.append([x, y])
|
75 |
+
return np.array(all_peaks)
|
76 |
+
|
77 |
+
if __name__ == "__main__":
|
78 |
+
hand_estimation = Hand('../model/hand_pose_model.pth')
|
79 |
+
|
80 |
+
# test_image = '../images/hand.jpg'
|
81 |
+
test_image = '../images/hand.jpg'
|
82 |
+
oriImg = cv2.imread(test_image) # B,G,R order
|
83 |
+
peaks = hand_estimation(oriImg)
|
84 |
+
canvas = util.draw_handpose(oriImg, peaks, True)
|
85 |
+
cv2.imshow('', canvas)
|
86 |
+
cv2.waitKey(0)
|
ControlNet/annotator/openpose/model.py
ADDED
@@ -0,0 +1,219 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
import torch
|
2 |
+
from collections import OrderedDict
|
3 |
+
|
4 |
+
import torch
|
5 |
+
import torch.nn as nn
|
6 |
+
|
7 |
+
def make_layers(block, no_relu_layers):
|
8 |
+
layers = []
|
9 |
+
for layer_name, v in block.items():
|
10 |
+
if 'pool' in layer_name:
|
11 |
+
layer = nn.MaxPool2d(kernel_size=v[0], stride=v[1],
|
12 |
+
padding=v[2])
|
13 |
+
layers.append((layer_name, layer))
|
14 |
+
else:
|
15 |
+
conv2d = nn.Conv2d(in_channels=v[0], out_channels=v[1],
|
16 |
+
kernel_size=v[2], stride=v[3],
|
17 |
+
padding=v[4])
|
18 |
+
layers.append((layer_name, conv2d))
|
19 |
+
if layer_name not in no_relu_layers:
|
20 |
+
layers.append(('relu_'+layer_name, nn.ReLU(inplace=True)))
|
21 |
+
|
22 |
+
return nn.Sequential(OrderedDict(layers))
|
23 |
+
|
24 |
+
class bodypose_model(nn.Module):
|
25 |
+
def __init__(self):
|
26 |
+
super(bodypose_model, self).__init__()
|
27 |
+
|
28 |
+
# these layers have no relu layer
|
29 |
+
no_relu_layers = ['conv5_5_CPM_L1', 'conv5_5_CPM_L2', 'Mconv7_stage2_L1',\
|
30 |
+
'Mconv7_stage2_L2', 'Mconv7_stage3_L1', 'Mconv7_stage3_L2',\
|
31 |
+
'Mconv7_stage4_L1', 'Mconv7_stage4_L2', 'Mconv7_stage5_L1',\
|
32 |
+
'Mconv7_stage5_L2', 'Mconv7_stage6_L1', 'Mconv7_stage6_L1']
|
33 |
+
blocks = {}
|
34 |
+
block0 = OrderedDict([
|
35 |
+
('conv1_1', [3, 64, 3, 1, 1]),
|
36 |
+
('conv1_2', [64, 64, 3, 1, 1]),
|
37 |
+
('pool1_stage1', [2, 2, 0]),
|
38 |
+
('conv2_1', [64, 128, 3, 1, 1]),
|
39 |
+
('conv2_2', [128, 128, 3, 1, 1]),
|
40 |
+
('pool2_stage1', [2, 2, 0]),
|
41 |
+
('conv3_1', [128, 256, 3, 1, 1]),
|
42 |
+
('conv3_2', [256, 256, 3, 1, 1]),
|
43 |
+
('conv3_3', [256, 256, 3, 1, 1]),
|
44 |
+
('conv3_4', [256, 256, 3, 1, 1]),
|
45 |
+
('pool3_stage1', [2, 2, 0]),
|
46 |
+
('conv4_1', [256, 512, 3, 1, 1]),
|
47 |
+
('conv4_2', [512, 512, 3, 1, 1]),
|
48 |
+
('conv4_3_CPM', [512, 256, 3, 1, 1]),
|
49 |
+
('conv4_4_CPM', [256, 128, 3, 1, 1])
|
50 |
+
])
|
51 |
+
|
52 |
+
|
53 |
+
# Stage 1
|
54 |
+
block1_1 = OrderedDict([
|
55 |
+
('conv5_1_CPM_L1', [128, 128, 3, 1, 1]),
|
56 |
+
('conv5_2_CPM_L1', [128, 128, 3, 1, 1]),
|
57 |
+
('conv5_3_CPM_L1', [128, 128, 3, 1, 1]),
|
58 |
+
('conv5_4_CPM_L1', [128, 512, 1, 1, 0]),
|
59 |
+
('conv5_5_CPM_L1', [512, 38, 1, 1, 0])
|
60 |
+
])
|
61 |
+
|
62 |
+
block1_2 = OrderedDict([
|
63 |
+
('conv5_1_CPM_L2', [128, 128, 3, 1, 1]),
|
64 |
+
('conv5_2_CPM_L2', [128, 128, 3, 1, 1]),
|
65 |
+
('conv5_3_CPM_L2', [128, 128, 3, 1, 1]),
|
66 |
+
('conv5_4_CPM_L2', [128, 512, 1, 1, 0]),
|
67 |
+
('conv5_5_CPM_L2', [512, 19, 1, 1, 0])
|
68 |
+
])
|
69 |
+
blocks['block1_1'] = block1_1
|
70 |
+
blocks['block1_2'] = block1_2
|
71 |
+
|
72 |
+
self.model0 = make_layers(block0, no_relu_layers)
|
73 |
+
|
74 |
+
# Stages 2 - 6
|
75 |
+
for i in range(2, 7):
|
76 |
+
blocks['block%d_1' % i] = OrderedDict([
|
77 |
+
('Mconv1_stage%d_L1' % i, [185, 128, 7, 1, 3]),
|
78 |
+
('Mconv2_stage%d_L1' % i, [128, 128, 7, 1, 3]),
|
79 |
+
('Mconv3_stage%d_L1' % i, [128, 128, 7, 1, 3]),
|
80 |
+
('Mconv4_stage%d_L1' % i, [128, 128, 7, 1, 3]),
|
81 |
+
('Mconv5_stage%d_L1' % i, [128, 128, 7, 1, 3]),
|
82 |
+
('Mconv6_stage%d_L1' % i, [128, 128, 1, 1, 0]),
|
83 |
+
('Mconv7_stage%d_L1' % i, [128, 38, 1, 1, 0])
|
84 |
+
])
|
85 |
+
|
86 |
+
blocks['block%d_2' % i] = OrderedDict([
|
87 |
+
('Mconv1_stage%d_L2' % i, [185, 128, 7, 1, 3]),
|
88 |
+
('Mconv2_stage%d_L2' % i, [128, 128, 7, 1, 3]),
|
89 |
+
('Mconv3_stage%d_L2' % i, [128, 128, 7, 1, 3]),
|
90 |
+
('Mconv4_stage%d_L2' % i, [128, 128, 7, 1, 3]),
|
91 |
+
('Mconv5_stage%d_L2' % i, [128, 128, 7, 1, 3]),
|
92 |
+
('Mconv6_stage%d_L2' % i, [128, 128, 1, 1, 0]),
|
93 |
+
('Mconv7_stage%d_L2' % i, [128, 19, 1, 1, 0])
|
94 |
+
])
|
95 |
+
|
96 |
+
for k in blocks.keys():
|
97 |
+
blocks[k] = make_layers(blocks[k], no_relu_layers)
|
98 |
+
|
99 |
+
self.model1_1 = blocks['block1_1']
|
100 |
+
self.model2_1 = blocks['block2_1']
|
101 |
+
self.model3_1 = blocks['block3_1']
|
102 |
+
self.model4_1 = blocks['block4_1']
|
103 |
+
self.model5_1 = blocks['block5_1']
|
104 |
+
self.model6_1 = blocks['block6_1']
|
105 |
+
|
106 |
+
self.model1_2 = blocks['block1_2']
|
107 |
+
self.model2_2 = blocks['block2_2']
|
108 |
+
self.model3_2 = blocks['block3_2']
|
109 |
+
self.model4_2 = blocks['block4_2']
|
110 |
+
self.model5_2 = blocks['block5_2']
|
111 |
+
self.model6_2 = blocks['block6_2']
|
112 |
+
|
113 |
+
|
114 |
+
def forward(self, x):
|
115 |
+
|
116 |
+
out1 = self.model0(x)
|
117 |
+
|
118 |
+
out1_1 = self.model1_1(out1)
|
119 |
+
out1_2 = self.model1_2(out1)
|
120 |
+
out2 = torch.cat([out1_1, out1_2, out1], 1)
|
121 |
+
|
122 |
+
out2_1 = self.model2_1(out2)
|
123 |
+
out2_2 = self.model2_2(out2)
|
124 |
+
out3 = torch.cat([out2_1, out2_2, out1], 1)
|
125 |
+
|
126 |
+
out3_1 = self.model3_1(out3)
|
127 |
+
out3_2 = self.model3_2(out3)
|
128 |
+
out4 = torch.cat([out3_1, out3_2, out1], 1)
|
129 |
+
|
130 |
+
out4_1 = self.model4_1(out4)
|
131 |
+
out4_2 = self.model4_2(out4)
|
132 |
+
out5 = torch.cat([out4_1, out4_2, out1], 1)
|
133 |
+
|
134 |
+
out5_1 = self.model5_1(out5)
|
135 |
+
out5_2 = self.model5_2(out5)
|
136 |
+
out6 = torch.cat([out5_1, out5_2, out1], 1)
|
137 |
+
|
138 |
+
out6_1 = self.model6_1(out6)
|
139 |
+
out6_2 = self.model6_2(out6)
|
140 |
+
|
141 |
+
return out6_1, out6_2
|
142 |
+
|
143 |
+
class handpose_model(nn.Module):
|
144 |
+
def __init__(self):
|
145 |
+
super(handpose_model, self).__init__()
|
146 |
+
|
147 |
+
# these layers have no relu layer
|
148 |
+
no_relu_layers = ['conv6_2_CPM', 'Mconv7_stage2', 'Mconv7_stage3',\
|
149 |
+
'Mconv7_stage4', 'Mconv7_stage5', 'Mconv7_stage6']
|
150 |
+
# stage 1
|
151 |
+
block1_0 = OrderedDict([
|
152 |
+
('conv1_1', [3, 64, 3, 1, 1]),
|
153 |
+
('conv1_2', [64, 64, 3, 1, 1]),
|
154 |
+
('pool1_stage1', [2, 2, 0]),
|
155 |
+
('conv2_1', [64, 128, 3, 1, 1]),
|
156 |
+
('conv2_2', [128, 128, 3, 1, 1]),
|
157 |
+
('pool2_stage1', [2, 2, 0]),
|
158 |
+
('conv3_1', [128, 256, 3, 1, 1]),
|
159 |
+
('conv3_2', [256, 256, 3, 1, 1]),
|
160 |
+
('conv3_3', [256, 256, 3, 1, 1]),
|
161 |
+
('conv3_4', [256, 256, 3, 1, 1]),
|
162 |
+
('pool3_stage1', [2, 2, 0]),
|
163 |
+
('conv4_1', [256, 512, 3, 1, 1]),
|
164 |
+
('conv4_2', [512, 512, 3, 1, 1]),
|
165 |
+
('conv4_3', [512, 512, 3, 1, 1]),
|
166 |
+
('conv4_4', [512, 512, 3, 1, 1]),
|
167 |
+
('conv5_1', [512, 512, 3, 1, 1]),
|
168 |
+
('conv5_2', [512, 512, 3, 1, 1]),
|
169 |
+
('conv5_3_CPM', [512, 128, 3, 1, 1])
|
170 |
+
])
|
171 |
+
|
172 |
+
block1_1 = OrderedDict([
|
173 |
+
('conv6_1_CPM', [128, 512, 1, 1, 0]),
|
174 |
+
('conv6_2_CPM', [512, 22, 1, 1, 0])
|
175 |
+
])
|
176 |
+
|
177 |
+
blocks = {}
|
178 |
+
blocks['block1_0'] = block1_0
|
179 |
+
blocks['block1_1'] = block1_1
|
180 |
+
|
181 |
+
# stage 2-6
|
182 |
+
for i in range(2, 7):
|
183 |
+
blocks['block%d' % i] = OrderedDict([
|
184 |
+
('Mconv1_stage%d' % i, [150, 128, 7, 1, 3]),
|
185 |
+
('Mconv2_stage%d' % i, [128, 128, 7, 1, 3]),
|
186 |
+
('Mconv3_stage%d' % i, [128, 128, 7, 1, 3]),
|
187 |
+
('Mconv4_stage%d' % i, [128, 128, 7, 1, 3]),
|
188 |
+
('Mconv5_stage%d' % i, [128, 128, 7, 1, 3]),
|
189 |
+
('Mconv6_stage%d' % i, [128, 128, 1, 1, 0]),
|
190 |
+
('Mconv7_stage%d' % i, [128, 22, 1, 1, 0])
|
191 |
+
])
|
192 |
+
|
193 |
+
for k in blocks.keys():
|
194 |
+
blocks[k] = make_layers(blocks[k], no_relu_layers)
|
195 |
+
|
196 |
+
self.model1_0 = blocks['block1_0']
|
197 |
+
self.model1_1 = blocks['block1_1']
|
198 |
+
self.model2 = blocks['block2']
|
199 |
+
self.model3 = blocks['block3']
|
200 |
+
self.model4 = blocks['block4']
|
201 |
+
self.model5 = blocks['block5']
|
202 |
+
self.model6 = blocks['block6']
|
203 |
+
|
204 |
+
def forward(self, x):
|
205 |
+
out1_0 = self.model1_0(x)
|
206 |
+
out1_1 = self.model1_1(out1_0)
|
207 |
+
concat_stage2 = torch.cat([out1_1, out1_0], 1)
|
208 |
+
out_stage2 = self.model2(concat_stage2)
|
209 |
+
concat_stage3 = torch.cat([out_stage2, out1_0], 1)
|
210 |
+
out_stage3 = self.model3(concat_stage3)
|
211 |
+
concat_stage4 = torch.cat([out_stage3, out1_0], 1)
|
212 |
+
out_stage4 = self.model4(concat_stage4)
|
213 |
+
concat_stage5 = torch.cat([out_stage4, out1_0], 1)
|
214 |
+
out_stage5 = self.model5(concat_stage5)
|
215 |
+
concat_stage6 = torch.cat([out_stage5, out1_0], 1)
|
216 |
+
out_stage6 = self.model6(concat_stage6)
|
217 |
+
return out_stage6
|
218 |
+
|
219 |
+
|
ControlNet/annotator/openpose/util.py
ADDED
@@ -0,0 +1,164 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
import math
|
2 |
+
import numpy as np
|
3 |
+
import matplotlib
|
4 |
+
import cv2
|
5 |
+
|
6 |
+
|
7 |
+
def padRightDownCorner(img, stride, padValue):
|
8 |
+
h = img.shape[0]
|
9 |
+
w = img.shape[1]
|
10 |
+
|
11 |
+
pad = 4 * [None]
|
12 |
+
pad[0] = 0 # up
|
13 |
+
pad[1] = 0 # left
|
14 |
+
pad[2] = 0 if (h % stride == 0) else stride - (h % stride) # down
|
15 |
+
pad[3] = 0 if (w % stride == 0) else stride - (w % stride) # right
|
16 |
+
|
17 |
+
img_padded = img
|
18 |
+
pad_up = np.tile(img_padded[0:1, :, :]*0 + padValue, (pad[0], 1, 1))
|
19 |
+
img_padded = np.concatenate((pad_up, img_padded), axis=0)
|
20 |
+
pad_left = np.tile(img_padded[:, 0:1, :]*0 + padValue, (1, pad[1], 1))
|
21 |
+
img_padded = np.concatenate((pad_left, img_padded), axis=1)
|
22 |
+
pad_down = np.tile(img_padded[-2:-1, :, :]*0 + padValue, (pad[2], 1, 1))
|
23 |
+
img_padded = np.concatenate((img_padded, pad_down), axis=0)
|
24 |
+
pad_right = np.tile(img_padded[:, -2:-1, :]*0 + padValue, (1, pad[3], 1))
|
25 |
+
img_padded = np.concatenate((img_padded, pad_right), axis=1)
|
26 |
+
|
27 |
+
return img_padded, pad
|
28 |
+
|
29 |
+
# transfer caffe model to pytorch which will match the layer name
|
30 |
+
def transfer(model, model_weights):
|
31 |
+
transfered_model_weights = {}
|
32 |
+
for weights_name in model.state_dict().keys():
|
33 |
+
transfered_model_weights[weights_name] = model_weights['.'.join(weights_name.split('.')[1:])]
|
34 |
+
return transfered_model_weights
|
35 |
+
|
36 |
+
# draw the body keypoint and lims
|
37 |
+
def draw_bodypose(canvas, candidate, subset):
|
38 |
+
stickwidth = 4
|
39 |
+
limbSeq = [[2, 3], [2, 6], [3, 4], [4, 5], [6, 7], [7, 8], [2, 9], [9, 10], \
|
40 |
+
[10, 11], [2, 12], [12, 13], [13, 14], [2, 1], [1, 15], [15, 17], \
|
41 |
+
[1, 16], [16, 18], [3, 17], [6, 18]]
|
42 |
+
|
43 |
+
colors = [[255, 0, 0], [255, 85, 0], [255, 170, 0], [255, 255, 0], [170, 255, 0], [85, 255, 0], [0, 255, 0], \
|
44 |
+
[0, 255, 85], [0, 255, 170], [0, 255, 255], [0, 170, 255], [0, 85, 255], [0, 0, 255], [85, 0, 255], \
|
45 |
+
[170, 0, 255], [255, 0, 255], [255, 0, 170], [255, 0, 85]]
|
46 |
+
for i in range(18):
|
47 |
+
for n in range(len(subset)):
|
48 |
+
index = int(subset[n][i])
|
49 |
+
if index == -1:
|
50 |
+
continue
|
51 |
+
x, y = candidate[index][0:2]
|
52 |
+
cv2.circle(canvas, (int(x), int(y)), 4, colors[i], thickness=-1)
|
53 |
+
for i in range(17):
|
54 |
+
for n in range(len(subset)):
|
55 |
+
index = subset[n][np.array(limbSeq[i]) - 1]
|
56 |
+
if -1 in index:
|
57 |
+
continue
|
58 |
+
cur_canvas = canvas.copy()
|
59 |
+
Y = candidate[index.astype(int), 0]
|
60 |
+
X = candidate[index.astype(int), 1]
|
61 |
+
mX = np.mean(X)
|
62 |
+
mY = np.mean(Y)
|
63 |
+
length = ((X[0] - X[1]) ** 2 + (Y[0] - Y[1]) ** 2) ** 0.5
|
64 |
+
angle = math.degrees(math.atan2(X[0] - X[1], Y[0] - Y[1]))
|
65 |
+
polygon = cv2.ellipse2Poly((int(mY), int(mX)), (int(length / 2), stickwidth), int(angle), 0, 360, 1)
|
66 |
+
cv2.fillConvexPoly(cur_canvas, polygon, colors[i])
|
67 |
+
canvas = cv2.addWeighted(canvas, 0.4, cur_canvas, 0.6, 0)
|
68 |
+
# plt.imsave("preview.jpg", canvas[:, :, [2, 1, 0]])
|
69 |
+
# plt.imshow(canvas[:, :, [2, 1, 0]])
|
70 |
+
return canvas
|
71 |
+
|
72 |
+
|
73 |
+
# image drawed by opencv is not good.
|
74 |
+
def draw_handpose(canvas, all_hand_peaks, show_number=False):
|
75 |
+
edges = [[0, 1], [1, 2], [2, 3], [3, 4], [0, 5], [5, 6], [6, 7], [7, 8], [0, 9], [9, 10], \
|
76 |
+
[10, 11], [11, 12], [0, 13], [13, 14], [14, 15], [15, 16], [0, 17], [17, 18], [18, 19], [19, 20]]
|
77 |
+
|
78 |
+
for peaks in all_hand_peaks:
|
79 |
+
for ie, e in enumerate(edges):
|
80 |
+
if np.sum(np.all(peaks[e], axis=1)==0)==0:
|
81 |
+
x1, y1 = peaks[e[0]]
|
82 |
+
x2, y2 = peaks[e[1]]
|
83 |
+
cv2.line(canvas, (x1, y1), (x2, y2), matplotlib.colors.hsv_to_rgb([ie/float(len(edges)), 1.0, 1.0])*255, thickness=2)
|
84 |
+
|
85 |
+
for i, keyponit in enumerate(peaks):
|
86 |
+
x, y = keyponit
|
87 |
+
cv2.circle(canvas, (x, y), 4, (0, 0, 255), thickness=-1)
|
88 |
+
if show_number:
|
89 |
+
cv2.putText(canvas, str(i), (x, y), cv2.FONT_HERSHEY_SIMPLEX, 0.3, (0, 0, 0), lineType=cv2.LINE_AA)
|
90 |
+
return canvas
|
91 |
+
|
92 |
+
# detect hand according to body pose keypoints
|
93 |
+
# please refer to https://github.com/CMU-Perceptual-Computing-Lab/openpose/blob/master/src/openpose/hand/handDetector.cpp
|
94 |
+
def handDetect(candidate, subset, oriImg):
|
95 |
+
# right hand: wrist 4, elbow 3, shoulder 2
|
96 |
+
# left hand: wrist 7, elbow 6, shoulder 5
|
97 |
+
ratioWristElbow = 0.33
|
98 |
+
detect_result = []
|
99 |
+
image_height, image_width = oriImg.shape[0:2]
|
100 |
+
for person in subset.astype(int):
|
101 |
+
# if any of three not detected
|
102 |
+
has_left = np.sum(person[[5, 6, 7]] == -1) == 0
|
103 |
+
has_right = np.sum(person[[2, 3, 4]] == -1) == 0
|
104 |
+
if not (has_left or has_right):
|
105 |
+
continue
|
106 |
+
hands = []
|
107 |
+
#left hand
|
108 |
+
if has_left:
|
109 |
+
left_shoulder_index, left_elbow_index, left_wrist_index = person[[5, 6, 7]]
|
110 |
+
x1, y1 = candidate[left_shoulder_index][:2]
|
111 |
+
x2, y2 = candidate[left_elbow_index][:2]
|
112 |
+
x3, y3 = candidate[left_wrist_index][:2]
|
113 |
+
hands.append([x1, y1, x2, y2, x3, y3, True])
|
114 |
+
# right hand
|
115 |
+
if has_right:
|
116 |
+
right_shoulder_index, right_elbow_index, right_wrist_index = person[[2, 3, 4]]
|
117 |
+
x1, y1 = candidate[right_shoulder_index][:2]
|
118 |
+
x2, y2 = candidate[right_elbow_index][:2]
|
119 |
+
x3, y3 = candidate[right_wrist_index][:2]
|
120 |
+
hands.append([x1, y1, x2, y2, x3, y3, False])
|
121 |
+
|
122 |
+
for x1, y1, x2, y2, x3, y3, is_left in hands:
|
123 |
+
# pos_hand = pos_wrist + ratio * (pos_wrist - pos_elbox) = (1 + ratio) * pos_wrist - ratio * pos_elbox
|
124 |
+
# handRectangle.x = posePtr[wrist*3] + ratioWristElbow * (posePtr[wrist*3] - posePtr[elbow*3]);
|
125 |
+
# handRectangle.y = posePtr[wrist*3+1] + ratioWristElbow * (posePtr[wrist*3+1] - posePtr[elbow*3+1]);
|
126 |
+
# const auto distanceWristElbow = getDistance(poseKeypoints, person, wrist, elbow);
|
127 |
+
# const auto distanceElbowShoulder = getDistance(poseKeypoints, person, elbow, shoulder);
|
128 |
+
# handRectangle.width = 1.5f * fastMax(distanceWristElbow, 0.9f * distanceElbowShoulder);
|
129 |
+
x = x3 + ratioWristElbow * (x3 - x2)
|
130 |
+
y = y3 + ratioWristElbow * (y3 - y2)
|
131 |
+
distanceWristElbow = math.sqrt((x3 - x2) ** 2 + (y3 - y2) ** 2)
|
132 |
+
distanceElbowShoulder = math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
|
133 |
+
width = 1.5 * max(distanceWristElbow, 0.9 * distanceElbowShoulder)
|
134 |
+
# x-y refers to the center --> offset to topLeft point
|
135 |
+
# handRectangle.x -= handRectangle.width / 2.f;
|
136 |
+
# handRectangle.y -= handRectangle.height / 2.f;
|
137 |
+
x -= width / 2
|
138 |
+
y -= width / 2 # width = height
|
139 |
+
# overflow the image
|
140 |
+
if x < 0: x = 0
|
141 |
+
if y < 0: y = 0
|
142 |
+
width1 = width
|
143 |
+
width2 = width
|
144 |
+
if x + width > image_width: width1 = image_width - x
|
145 |
+
if y + width > image_height: width2 = image_height - y
|
146 |
+
width = min(width1, width2)
|
147 |
+
# the max hand box value is 20 pixels
|
148 |
+
if width >= 20:
|
149 |
+
detect_result.append([int(x), int(y), int(width), is_left])
|
150 |
+
|
151 |
+
'''
|
152 |
+
return value: [[x, y, w, True if left hand else False]].
|
153 |
+
width=height since the network require squared input.
|
154 |
+
x, y is the coordinate of top left
|
155 |
+
'''
|
156 |
+
return detect_result
|
157 |
+
|
158 |
+
# get max index of 2d array
|
159 |
+
def npmax(array):
|
160 |
+
arrayindex = array.argmax(1)
|
161 |
+
arrayvalue = array.max(1)
|
162 |
+
i = arrayvalue.argmax()
|
163 |
+
j = arrayindex[i]
|
164 |
+
return i, j
|
ControlNet/annotator/uniformer/LICENSE
ADDED
@@ -0,0 +1,203 @@
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|
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|
ControlNet/annotator/uniformer/__init__.py
ADDED
@@ -0,0 +1,27 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# Uniformer
|
2 |
+
# From https://github.com/Sense-X/UniFormer
|
3 |
+
# # Apache-2.0 license
|
4 |
+
|
5 |
+
import os
|
6 |
+
|
7 |
+
from annotator.uniformer.mmseg.apis import init_segmentor, inference_segmentor, show_result_pyplot
|
8 |
+
from annotator.uniformer.mmseg.core.evaluation import get_palette
|
9 |
+
from annotator.util import annotator_ckpts_path
|
10 |
+
|
11 |
+
|
12 |
+
checkpoint_file = "https://huggingface.co/lllyasviel/ControlNet/resolve/main/annotator/ckpts/upernet_global_small.pth"
|
13 |
+
|
14 |
+
|
15 |
+
class UniformerDetector:
|
16 |
+
def __init__(self):
|
17 |
+
modelpath = os.path.join(annotator_ckpts_path, "upernet_global_small.pth")
|
18 |
+
if not os.path.exists(modelpath):
|
19 |
+
from basicsr.utils.download_util import load_file_from_url
|
20 |
+
load_file_from_url(checkpoint_file, model_dir=annotator_ckpts_path)
|
21 |
+
config_file = os.path.join(os.path.dirname(annotator_ckpts_path), "uniformer", "exp", "upernet_global_small", "config.py")
|
22 |
+
self.model = init_segmentor(config_file, modelpath).cuda()
|
23 |
+
|
24 |
+
def __call__(self, img):
|
25 |
+
result = inference_segmentor(self.model, img)
|
26 |
+
res_img = show_result_pyplot(self.model, img, result, get_palette('ade'), opacity=1)
|
27 |
+
return res_img
|
ControlNet/annotator/uniformer/configs/_base_/datasets/ade20k.py
ADDED
@@ -0,0 +1,54 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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|
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|
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|
|
|
|
|
|
|
|
|
|
|
1 |
+
# dataset settings
|
2 |
+
dataset_type = 'ADE20KDataset'
|
3 |
+
data_root = 'data/ade/ADEChallengeData2016'
|
4 |
+
img_norm_cfg = dict(
|
5 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
6 |
+
crop_size = (512, 512)
|
7 |
+
train_pipeline = [
|
8 |
+
dict(type='LoadImageFromFile'),
|
9 |
+
dict(type='LoadAnnotations', reduce_zero_label=True),
|
10 |
+
dict(type='Resize', img_scale=(2048, 512), ratio_range=(0.5, 2.0)),
|
11 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
12 |
+
dict(type='RandomFlip', prob=0.5),
|
13 |
+
dict(type='PhotoMetricDistortion'),
|
14 |
+
dict(type='Normalize', **img_norm_cfg),
|
15 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
16 |
+
dict(type='DefaultFormatBundle'),
|
17 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg']),
|
18 |
+
]
|
19 |
+
test_pipeline = [
|
20 |
+
dict(type='LoadImageFromFile'),
|
21 |
+
dict(
|
22 |
+
type='MultiScaleFlipAug',
|
23 |
+
img_scale=(2048, 512),
|
24 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75],
|
25 |
+
flip=False,
|
26 |
+
transforms=[
|
27 |
+
dict(type='Resize', keep_ratio=True),
|
28 |
+
dict(type='RandomFlip'),
|
29 |
+
dict(type='Normalize', **img_norm_cfg),
|
30 |
+
dict(type='ImageToTensor', keys=['img']),
|
31 |
+
dict(type='Collect', keys=['img']),
|
32 |
+
])
|
33 |
+
]
|
34 |
+
data = dict(
|
35 |
+
samples_per_gpu=4,
|
36 |
+
workers_per_gpu=4,
|
37 |
+
train=dict(
|
38 |
+
type=dataset_type,
|
39 |
+
data_root=data_root,
|
40 |
+
img_dir='images/training',
|
41 |
+
ann_dir='annotations/training',
|
42 |
+
pipeline=train_pipeline),
|
43 |
+
val=dict(
|
44 |
+
type=dataset_type,
|
45 |
+
data_root=data_root,
|
46 |
+
img_dir='images/validation',
|
47 |
+
ann_dir='annotations/validation',
|
48 |
+
pipeline=test_pipeline),
|
49 |
+
test=dict(
|
50 |
+
type=dataset_type,
|
51 |
+
data_root=data_root,
|
52 |
+
img_dir='images/validation',
|
53 |
+
ann_dir='annotations/validation',
|
54 |
+
pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/chase_db1.py
ADDED
@@ -0,0 +1,59 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# dataset settings
|
2 |
+
dataset_type = 'ChaseDB1Dataset'
|
3 |
+
data_root = 'data/CHASE_DB1'
|
4 |
+
img_norm_cfg = dict(
|
5 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
6 |
+
img_scale = (960, 999)
|
7 |
+
crop_size = (128, 128)
|
8 |
+
train_pipeline = [
|
9 |
+
dict(type='LoadImageFromFile'),
|
10 |
+
dict(type='LoadAnnotations'),
|
11 |
+
dict(type='Resize', img_scale=img_scale, ratio_range=(0.5, 2.0)),
|
12 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
13 |
+
dict(type='RandomFlip', prob=0.5),
|
14 |
+
dict(type='PhotoMetricDistortion'),
|
15 |
+
dict(type='Normalize', **img_norm_cfg),
|
16 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
17 |
+
dict(type='DefaultFormatBundle'),
|
18 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg'])
|
19 |
+
]
|
20 |
+
test_pipeline = [
|
21 |
+
dict(type='LoadImageFromFile'),
|
22 |
+
dict(
|
23 |
+
type='MultiScaleFlipAug',
|
24 |
+
img_scale=img_scale,
|
25 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75, 2.0],
|
26 |
+
flip=False,
|
27 |
+
transforms=[
|
28 |
+
dict(type='Resize', keep_ratio=True),
|
29 |
+
dict(type='RandomFlip'),
|
30 |
+
dict(type='Normalize', **img_norm_cfg),
|
31 |
+
dict(type='ImageToTensor', keys=['img']),
|
32 |
+
dict(type='Collect', keys=['img'])
|
33 |
+
])
|
34 |
+
]
|
35 |
+
|
36 |
+
data = dict(
|
37 |
+
samples_per_gpu=4,
|
38 |
+
workers_per_gpu=4,
|
39 |
+
train=dict(
|
40 |
+
type='RepeatDataset',
|
41 |
+
times=40000,
|
42 |
+
dataset=dict(
|
43 |
+
type=dataset_type,
|
44 |
+
data_root=data_root,
|
45 |
+
img_dir='images/training',
|
46 |
+
ann_dir='annotations/training',
|
47 |
+
pipeline=train_pipeline)),
|
48 |
+
val=dict(
|
49 |
+
type=dataset_type,
|
50 |
+
data_root=data_root,
|
51 |
+
img_dir='images/validation',
|
52 |
+
ann_dir='annotations/validation',
|
53 |
+
pipeline=test_pipeline),
|
54 |
+
test=dict(
|
55 |
+
type=dataset_type,
|
56 |
+
data_root=data_root,
|
57 |
+
img_dir='images/validation',
|
58 |
+
ann_dir='annotations/validation',
|
59 |
+
pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/cityscapes.py
ADDED
@@ -0,0 +1,54 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# dataset settings
|
2 |
+
dataset_type = 'CityscapesDataset'
|
3 |
+
data_root = 'data/cityscapes/'
|
4 |
+
img_norm_cfg = dict(
|
5 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
6 |
+
crop_size = (512, 1024)
|
7 |
+
train_pipeline = [
|
8 |
+
dict(type='LoadImageFromFile'),
|
9 |
+
dict(type='LoadAnnotations'),
|
10 |
+
dict(type='Resize', img_scale=(2048, 1024), ratio_range=(0.5, 2.0)),
|
11 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
12 |
+
dict(type='RandomFlip', prob=0.5),
|
13 |
+
dict(type='PhotoMetricDistortion'),
|
14 |
+
dict(type='Normalize', **img_norm_cfg),
|
15 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
16 |
+
dict(type='DefaultFormatBundle'),
|
17 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg']),
|
18 |
+
]
|
19 |
+
test_pipeline = [
|
20 |
+
dict(type='LoadImageFromFile'),
|
21 |
+
dict(
|
22 |
+
type='MultiScaleFlipAug',
|
23 |
+
img_scale=(2048, 1024),
|
24 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75],
|
25 |
+
flip=False,
|
26 |
+
transforms=[
|
27 |
+
dict(type='Resize', keep_ratio=True),
|
28 |
+
dict(type='RandomFlip'),
|
29 |
+
dict(type='Normalize', **img_norm_cfg),
|
30 |
+
dict(type='ImageToTensor', keys=['img']),
|
31 |
+
dict(type='Collect', keys=['img']),
|
32 |
+
])
|
33 |
+
]
|
34 |
+
data = dict(
|
35 |
+
samples_per_gpu=2,
|
36 |
+
workers_per_gpu=2,
|
37 |
+
train=dict(
|
38 |
+
type=dataset_type,
|
39 |
+
data_root=data_root,
|
40 |
+
img_dir='leftImg8bit/train',
|
41 |
+
ann_dir='gtFine/train',
|
42 |
+
pipeline=train_pipeline),
|
43 |
+
val=dict(
|
44 |
+
type=dataset_type,
|
45 |
+
data_root=data_root,
|
46 |
+
img_dir='leftImg8bit/val',
|
47 |
+
ann_dir='gtFine/val',
|
48 |
+
pipeline=test_pipeline),
|
49 |
+
test=dict(
|
50 |
+
type=dataset_type,
|
51 |
+
data_root=data_root,
|
52 |
+
img_dir='leftImg8bit/val',
|
53 |
+
ann_dir='gtFine/val',
|
54 |
+
pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/cityscapes_769x769.py
ADDED
@@ -0,0 +1,35 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
_base_ = './cityscapes.py'
|
2 |
+
img_norm_cfg = dict(
|
3 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
4 |
+
crop_size = (769, 769)
|
5 |
+
train_pipeline = [
|
6 |
+
dict(type='LoadImageFromFile'),
|
7 |
+
dict(type='LoadAnnotations'),
|
8 |
+
dict(type='Resize', img_scale=(2049, 1025), ratio_range=(0.5, 2.0)),
|
9 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
10 |
+
dict(type='RandomFlip', prob=0.5),
|
11 |
+
dict(type='PhotoMetricDistortion'),
|
12 |
+
dict(type='Normalize', **img_norm_cfg),
|
13 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
14 |
+
dict(type='DefaultFormatBundle'),
|
15 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg']),
|
16 |
+
]
|
17 |
+
test_pipeline = [
|
18 |
+
dict(type='LoadImageFromFile'),
|
19 |
+
dict(
|
20 |
+
type='MultiScaleFlipAug',
|
21 |
+
img_scale=(2049, 1025),
|
22 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75],
|
23 |
+
flip=False,
|
24 |
+
transforms=[
|
25 |
+
dict(type='Resize', keep_ratio=True),
|
26 |
+
dict(type='RandomFlip'),
|
27 |
+
dict(type='Normalize', **img_norm_cfg),
|
28 |
+
dict(type='ImageToTensor', keys=['img']),
|
29 |
+
dict(type='Collect', keys=['img']),
|
30 |
+
])
|
31 |
+
]
|
32 |
+
data = dict(
|
33 |
+
train=dict(pipeline=train_pipeline),
|
34 |
+
val=dict(pipeline=test_pipeline),
|
35 |
+
test=dict(pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/drive.py
ADDED
@@ -0,0 +1,59 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# dataset settings
|
2 |
+
dataset_type = 'DRIVEDataset'
|
3 |
+
data_root = 'data/DRIVE'
|
4 |
+
img_norm_cfg = dict(
|
5 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
6 |
+
img_scale = (584, 565)
|
7 |
+
crop_size = (64, 64)
|
8 |
+
train_pipeline = [
|
9 |
+
dict(type='LoadImageFromFile'),
|
10 |
+
dict(type='LoadAnnotations'),
|
11 |
+
dict(type='Resize', img_scale=img_scale, ratio_range=(0.5, 2.0)),
|
12 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
13 |
+
dict(type='RandomFlip', prob=0.5),
|
14 |
+
dict(type='PhotoMetricDistortion'),
|
15 |
+
dict(type='Normalize', **img_norm_cfg),
|
16 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
17 |
+
dict(type='DefaultFormatBundle'),
|
18 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg'])
|
19 |
+
]
|
20 |
+
test_pipeline = [
|
21 |
+
dict(type='LoadImageFromFile'),
|
22 |
+
dict(
|
23 |
+
type='MultiScaleFlipAug',
|
24 |
+
img_scale=img_scale,
|
25 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75, 2.0],
|
26 |
+
flip=False,
|
27 |
+
transforms=[
|
28 |
+
dict(type='Resize', keep_ratio=True),
|
29 |
+
dict(type='RandomFlip'),
|
30 |
+
dict(type='Normalize', **img_norm_cfg),
|
31 |
+
dict(type='ImageToTensor', keys=['img']),
|
32 |
+
dict(type='Collect', keys=['img'])
|
33 |
+
])
|
34 |
+
]
|
35 |
+
|
36 |
+
data = dict(
|
37 |
+
samples_per_gpu=4,
|
38 |
+
workers_per_gpu=4,
|
39 |
+
train=dict(
|
40 |
+
type='RepeatDataset',
|
41 |
+
times=40000,
|
42 |
+
dataset=dict(
|
43 |
+
type=dataset_type,
|
44 |
+
data_root=data_root,
|
45 |
+
img_dir='images/training',
|
46 |
+
ann_dir='annotations/training',
|
47 |
+
pipeline=train_pipeline)),
|
48 |
+
val=dict(
|
49 |
+
type=dataset_type,
|
50 |
+
data_root=data_root,
|
51 |
+
img_dir='images/validation',
|
52 |
+
ann_dir='annotations/validation',
|
53 |
+
pipeline=test_pipeline),
|
54 |
+
test=dict(
|
55 |
+
type=dataset_type,
|
56 |
+
data_root=data_root,
|
57 |
+
img_dir='images/validation',
|
58 |
+
ann_dir='annotations/validation',
|
59 |
+
pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/hrf.py
ADDED
@@ -0,0 +1,59 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# dataset settings
|
2 |
+
dataset_type = 'HRFDataset'
|
3 |
+
data_root = 'data/HRF'
|
4 |
+
img_norm_cfg = dict(
|
5 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
6 |
+
img_scale = (2336, 3504)
|
7 |
+
crop_size = (256, 256)
|
8 |
+
train_pipeline = [
|
9 |
+
dict(type='LoadImageFromFile'),
|
10 |
+
dict(type='LoadAnnotations'),
|
11 |
+
dict(type='Resize', img_scale=img_scale, ratio_range=(0.5, 2.0)),
|
12 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
13 |
+
dict(type='RandomFlip', prob=0.5),
|
14 |
+
dict(type='PhotoMetricDistortion'),
|
15 |
+
dict(type='Normalize', **img_norm_cfg),
|
16 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
17 |
+
dict(type='DefaultFormatBundle'),
|
18 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg'])
|
19 |
+
]
|
20 |
+
test_pipeline = [
|
21 |
+
dict(type='LoadImageFromFile'),
|
22 |
+
dict(
|
23 |
+
type='MultiScaleFlipAug',
|
24 |
+
img_scale=img_scale,
|
25 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75, 2.0],
|
26 |
+
flip=False,
|
27 |
+
transforms=[
|
28 |
+
dict(type='Resize', keep_ratio=True),
|
29 |
+
dict(type='RandomFlip'),
|
30 |
+
dict(type='Normalize', **img_norm_cfg),
|
31 |
+
dict(type='ImageToTensor', keys=['img']),
|
32 |
+
dict(type='Collect', keys=['img'])
|
33 |
+
])
|
34 |
+
]
|
35 |
+
|
36 |
+
data = dict(
|
37 |
+
samples_per_gpu=4,
|
38 |
+
workers_per_gpu=4,
|
39 |
+
train=dict(
|
40 |
+
type='RepeatDataset',
|
41 |
+
times=40000,
|
42 |
+
dataset=dict(
|
43 |
+
type=dataset_type,
|
44 |
+
data_root=data_root,
|
45 |
+
img_dir='images/training',
|
46 |
+
ann_dir='annotations/training',
|
47 |
+
pipeline=train_pipeline)),
|
48 |
+
val=dict(
|
49 |
+
type=dataset_type,
|
50 |
+
data_root=data_root,
|
51 |
+
img_dir='images/validation',
|
52 |
+
ann_dir='annotations/validation',
|
53 |
+
pipeline=test_pipeline),
|
54 |
+
test=dict(
|
55 |
+
type=dataset_type,
|
56 |
+
data_root=data_root,
|
57 |
+
img_dir='images/validation',
|
58 |
+
ann_dir='annotations/validation',
|
59 |
+
pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/pascal_context.py
ADDED
@@ -0,0 +1,60 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# dataset settings
|
2 |
+
dataset_type = 'PascalContextDataset'
|
3 |
+
data_root = 'data/VOCdevkit/VOC2010/'
|
4 |
+
img_norm_cfg = dict(
|
5 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
6 |
+
|
7 |
+
img_scale = (520, 520)
|
8 |
+
crop_size = (480, 480)
|
9 |
+
|
10 |
+
train_pipeline = [
|
11 |
+
dict(type='LoadImageFromFile'),
|
12 |
+
dict(type='LoadAnnotations'),
|
13 |
+
dict(type='Resize', img_scale=img_scale, ratio_range=(0.5, 2.0)),
|
14 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
15 |
+
dict(type='RandomFlip', prob=0.5),
|
16 |
+
dict(type='PhotoMetricDistortion'),
|
17 |
+
dict(type='Normalize', **img_norm_cfg),
|
18 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
19 |
+
dict(type='DefaultFormatBundle'),
|
20 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg']),
|
21 |
+
]
|
22 |
+
test_pipeline = [
|
23 |
+
dict(type='LoadImageFromFile'),
|
24 |
+
dict(
|
25 |
+
type='MultiScaleFlipAug',
|
26 |
+
img_scale=img_scale,
|
27 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75],
|
28 |
+
flip=False,
|
29 |
+
transforms=[
|
30 |
+
dict(type='Resize', keep_ratio=True),
|
31 |
+
dict(type='RandomFlip'),
|
32 |
+
dict(type='Normalize', **img_norm_cfg),
|
33 |
+
dict(type='ImageToTensor', keys=['img']),
|
34 |
+
dict(type='Collect', keys=['img']),
|
35 |
+
])
|
36 |
+
]
|
37 |
+
data = dict(
|
38 |
+
samples_per_gpu=4,
|
39 |
+
workers_per_gpu=4,
|
40 |
+
train=dict(
|
41 |
+
type=dataset_type,
|
42 |
+
data_root=data_root,
|
43 |
+
img_dir='JPEGImages',
|
44 |
+
ann_dir='SegmentationClassContext',
|
45 |
+
split='ImageSets/SegmentationContext/train.txt',
|
46 |
+
pipeline=train_pipeline),
|
47 |
+
val=dict(
|
48 |
+
type=dataset_type,
|
49 |
+
data_root=data_root,
|
50 |
+
img_dir='JPEGImages',
|
51 |
+
ann_dir='SegmentationClassContext',
|
52 |
+
split='ImageSets/SegmentationContext/val.txt',
|
53 |
+
pipeline=test_pipeline),
|
54 |
+
test=dict(
|
55 |
+
type=dataset_type,
|
56 |
+
data_root=data_root,
|
57 |
+
img_dir='JPEGImages',
|
58 |
+
ann_dir='SegmentationClassContext',
|
59 |
+
split='ImageSets/SegmentationContext/val.txt',
|
60 |
+
pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/pascal_context_59.py
ADDED
@@ -0,0 +1,60 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# dataset settings
|
2 |
+
dataset_type = 'PascalContextDataset59'
|
3 |
+
data_root = 'data/VOCdevkit/VOC2010/'
|
4 |
+
img_norm_cfg = dict(
|
5 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
6 |
+
|
7 |
+
img_scale = (520, 520)
|
8 |
+
crop_size = (480, 480)
|
9 |
+
|
10 |
+
train_pipeline = [
|
11 |
+
dict(type='LoadImageFromFile'),
|
12 |
+
dict(type='LoadAnnotations', reduce_zero_label=True),
|
13 |
+
dict(type='Resize', img_scale=img_scale, ratio_range=(0.5, 2.0)),
|
14 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
15 |
+
dict(type='RandomFlip', prob=0.5),
|
16 |
+
dict(type='PhotoMetricDistortion'),
|
17 |
+
dict(type='Normalize', **img_norm_cfg),
|
18 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
19 |
+
dict(type='DefaultFormatBundle'),
|
20 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg']),
|
21 |
+
]
|
22 |
+
test_pipeline = [
|
23 |
+
dict(type='LoadImageFromFile'),
|
24 |
+
dict(
|
25 |
+
type='MultiScaleFlipAug',
|
26 |
+
img_scale=img_scale,
|
27 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75],
|
28 |
+
flip=False,
|
29 |
+
transforms=[
|
30 |
+
dict(type='Resize', keep_ratio=True),
|
31 |
+
dict(type='RandomFlip'),
|
32 |
+
dict(type='Normalize', **img_norm_cfg),
|
33 |
+
dict(type='ImageToTensor', keys=['img']),
|
34 |
+
dict(type='Collect', keys=['img']),
|
35 |
+
])
|
36 |
+
]
|
37 |
+
data = dict(
|
38 |
+
samples_per_gpu=4,
|
39 |
+
workers_per_gpu=4,
|
40 |
+
train=dict(
|
41 |
+
type=dataset_type,
|
42 |
+
data_root=data_root,
|
43 |
+
img_dir='JPEGImages',
|
44 |
+
ann_dir='SegmentationClassContext',
|
45 |
+
split='ImageSets/SegmentationContext/train.txt',
|
46 |
+
pipeline=train_pipeline),
|
47 |
+
val=dict(
|
48 |
+
type=dataset_type,
|
49 |
+
data_root=data_root,
|
50 |
+
img_dir='JPEGImages',
|
51 |
+
ann_dir='SegmentationClassContext',
|
52 |
+
split='ImageSets/SegmentationContext/val.txt',
|
53 |
+
pipeline=test_pipeline),
|
54 |
+
test=dict(
|
55 |
+
type=dataset_type,
|
56 |
+
data_root=data_root,
|
57 |
+
img_dir='JPEGImages',
|
58 |
+
ann_dir='SegmentationClassContext',
|
59 |
+
split='ImageSets/SegmentationContext/val.txt',
|
60 |
+
pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/pascal_voc12.py
ADDED
@@ -0,0 +1,57 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# dataset settings
|
2 |
+
dataset_type = 'PascalVOCDataset'
|
3 |
+
data_root = 'data/VOCdevkit/VOC2012'
|
4 |
+
img_norm_cfg = dict(
|
5 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
6 |
+
crop_size = (512, 512)
|
7 |
+
train_pipeline = [
|
8 |
+
dict(type='LoadImageFromFile'),
|
9 |
+
dict(type='LoadAnnotations'),
|
10 |
+
dict(type='Resize', img_scale=(2048, 512), ratio_range=(0.5, 2.0)),
|
11 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
12 |
+
dict(type='RandomFlip', prob=0.5),
|
13 |
+
dict(type='PhotoMetricDistortion'),
|
14 |
+
dict(type='Normalize', **img_norm_cfg),
|
15 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
16 |
+
dict(type='DefaultFormatBundle'),
|
17 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg']),
|
18 |
+
]
|
19 |
+
test_pipeline = [
|
20 |
+
dict(type='LoadImageFromFile'),
|
21 |
+
dict(
|
22 |
+
type='MultiScaleFlipAug',
|
23 |
+
img_scale=(2048, 512),
|
24 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75],
|
25 |
+
flip=False,
|
26 |
+
transforms=[
|
27 |
+
dict(type='Resize', keep_ratio=True),
|
28 |
+
dict(type='RandomFlip'),
|
29 |
+
dict(type='Normalize', **img_norm_cfg),
|
30 |
+
dict(type='ImageToTensor', keys=['img']),
|
31 |
+
dict(type='Collect', keys=['img']),
|
32 |
+
])
|
33 |
+
]
|
34 |
+
data = dict(
|
35 |
+
samples_per_gpu=4,
|
36 |
+
workers_per_gpu=4,
|
37 |
+
train=dict(
|
38 |
+
type=dataset_type,
|
39 |
+
data_root=data_root,
|
40 |
+
img_dir='JPEGImages',
|
41 |
+
ann_dir='SegmentationClass',
|
42 |
+
split='ImageSets/Segmentation/train.txt',
|
43 |
+
pipeline=train_pipeline),
|
44 |
+
val=dict(
|
45 |
+
type=dataset_type,
|
46 |
+
data_root=data_root,
|
47 |
+
img_dir='JPEGImages',
|
48 |
+
ann_dir='SegmentationClass',
|
49 |
+
split='ImageSets/Segmentation/val.txt',
|
50 |
+
pipeline=test_pipeline),
|
51 |
+
test=dict(
|
52 |
+
type=dataset_type,
|
53 |
+
data_root=data_root,
|
54 |
+
img_dir='JPEGImages',
|
55 |
+
ann_dir='SegmentationClass',
|
56 |
+
split='ImageSets/Segmentation/val.txt',
|
57 |
+
pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/pascal_voc12_aug.py
ADDED
@@ -0,0 +1,9 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
_base_ = './pascal_voc12.py'
|
2 |
+
# dataset settings
|
3 |
+
data = dict(
|
4 |
+
train=dict(
|
5 |
+
ann_dir=['SegmentationClass', 'SegmentationClassAug'],
|
6 |
+
split=[
|
7 |
+
'ImageSets/Segmentation/train.txt',
|
8 |
+
'ImageSets/Segmentation/aug.txt'
|
9 |
+
]))
|
ControlNet/annotator/uniformer/configs/_base_/datasets/stare.py
ADDED
@@ -0,0 +1,59 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# dataset settings
|
2 |
+
dataset_type = 'STAREDataset'
|
3 |
+
data_root = 'data/STARE'
|
4 |
+
img_norm_cfg = dict(
|
5 |
+
mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], to_rgb=True)
|
6 |
+
img_scale = (605, 700)
|
7 |
+
crop_size = (128, 128)
|
8 |
+
train_pipeline = [
|
9 |
+
dict(type='LoadImageFromFile'),
|
10 |
+
dict(type='LoadAnnotations'),
|
11 |
+
dict(type='Resize', img_scale=img_scale, ratio_range=(0.5, 2.0)),
|
12 |
+
dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75),
|
13 |
+
dict(type='RandomFlip', prob=0.5),
|
14 |
+
dict(type='PhotoMetricDistortion'),
|
15 |
+
dict(type='Normalize', **img_norm_cfg),
|
16 |
+
dict(type='Pad', size=crop_size, pad_val=0, seg_pad_val=255),
|
17 |
+
dict(type='DefaultFormatBundle'),
|
18 |
+
dict(type='Collect', keys=['img', 'gt_semantic_seg'])
|
19 |
+
]
|
20 |
+
test_pipeline = [
|
21 |
+
dict(type='LoadImageFromFile'),
|
22 |
+
dict(
|
23 |
+
type='MultiScaleFlipAug',
|
24 |
+
img_scale=img_scale,
|
25 |
+
# img_ratios=[0.5, 0.75, 1.0, 1.25, 1.5, 1.75, 2.0],
|
26 |
+
flip=False,
|
27 |
+
transforms=[
|
28 |
+
dict(type='Resize', keep_ratio=True),
|
29 |
+
dict(type='RandomFlip'),
|
30 |
+
dict(type='Normalize', **img_norm_cfg),
|
31 |
+
dict(type='ImageToTensor', keys=['img']),
|
32 |
+
dict(type='Collect', keys=['img'])
|
33 |
+
])
|
34 |
+
]
|
35 |
+
|
36 |
+
data = dict(
|
37 |
+
samples_per_gpu=4,
|
38 |
+
workers_per_gpu=4,
|
39 |
+
train=dict(
|
40 |
+
type='RepeatDataset',
|
41 |
+
times=40000,
|
42 |
+
dataset=dict(
|
43 |
+
type=dataset_type,
|
44 |
+
data_root=data_root,
|
45 |
+
img_dir='images/training',
|
46 |
+
ann_dir='annotations/training',
|
47 |
+
pipeline=train_pipeline)),
|
48 |
+
val=dict(
|
49 |
+
type=dataset_type,
|
50 |
+
data_root=data_root,
|
51 |
+
img_dir='images/validation',
|
52 |
+
ann_dir='annotations/validation',
|
53 |
+
pipeline=test_pipeline),
|
54 |
+
test=dict(
|
55 |
+
type=dataset_type,
|
56 |
+
data_root=data_root,
|
57 |
+
img_dir='images/validation',
|
58 |
+
ann_dir='annotations/validation',
|
59 |
+
pipeline=test_pipeline))
|
ControlNet/annotator/uniformer/configs/_base_/default_runtime.py
ADDED
@@ -0,0 +1,14 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# yapf:disable
|
2 |
+
log_config = dict(
|
3 |
+
interval=50,
|
4 |
+
hooks=[
|
5 |
+
dict(type='TextLoggerHook', by_epoch=False),
|
6 |
+
# dict(type='TensorboardLoggerHook')
|
7 |
+
])
|
8 |
+
# yapf:enable
|
9 |
+
dist_params = dict(backend='nccl')
|
10 |
+
log_level = 'INFO'
|
11 |
+
load_from = None
|
12 |
+
resume_from = None
|
13 |
+
workflow = [('train', 1)]
|
14 |
+
cudnn_benchmark = True
|
ControlNet/annotator/uniformer/configs/_base_/schedules/schedule_160k.py
ADDED
@@ -0,0 +1,9 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# optimizer
|
2 |
+
optimizer = dict(type='SGD', lr=0.01, momentum=0.9, weight_decay=0.0005)
|
3 |
+
optimizer_config = dict()
|
4 |
+
# learning policy
|
5 |
+
lr_config = dict(policy='poly', power=0.9, min_lr=1e-4, by_epoch=False)
|
6 |
+
# runtime settings
|
7 |
+
runner = dict(type='IterBasedRunner', max_iters=160000)
|
8 |
+
checkpoint_config = dict(by_epoch=False, interval=16000)
|
9 |
+
evaluation = dict(interval=16000, metric='mIoU')
|
ControlNet/annotator/uniformer/configs/_base_/schedules/schedule_20k.py
ADDED
@@ -0,0 +1,9 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# optimizer
|
2 |
+
optimizer = dict(type='SGD', lr=0.01, momentum=0.9, weight_decay=0.0005)
|
3 |
+
optimizer_config = dict()
|
4 |
+
# learning policy
|
5 |
+
lr_config = dict(policy='poly', power=0.9, min_lr=1e-4, by_epoch=False)
|
6 |
+
# runtime settings
|
7 |
+
runner = dict(type='IterBasedRunner', max_iters=20000)
|
8 |
+
checkpoint_config = dict(by_epoch=False, interval=2000)
|
9 |
+
evaluation = dict(interval=2000, metric='mIoU')
|
ControlNet/annotator/uniformer/configs/_base_/schedules/schedule_40k.py
ADDED
@@ -0,0 +1,9 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# optimizer
|
2 |
+
optimizer = dict(type='SGD', lr=0.01, momentum=0.9, weight_decay=0.0005)
|
3 |
+
optimizer_config = dict()
|
4 |
+
# learning policy
|
5 |
+
lr_config = dict(policy='poly', power=0.9, min_lr=1e-4, by_epoch=False)
|
6 |
+
# runtime settings
|
7 |
+
runner = dict(type='IterBasedRunner', max_iters=40000)
|
8 |
+
checkpoint_config = dict(by_epoch=False, interval=4000)
|
9 |
+
evaluation = dict(interval=4000, metric='mIoU')
|
ControlNet/annotator/uniformer/configs/_base_/schedules/schedule_80k.py
ADDED
@@ -0,0 +1,9 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
# optimizer
|
2 |
+
optimizer = dict(type='SGD', lr=0.01, momentum=0.9, weight_decay=0.0005)
|
3 |
+
optimizer_config = dict()
|
4 |
+
# learning policy
|
5 |
+
lr_config = dict(policy='poly', power=0.9, min_lr=1e-4, by_epoch=False)
|
6 |
+
# runtime settings
|
7 |
+
runner = dict(type='IterBasedRunner', max_iters=80000)
|
8 |
+
checkpoint_config = dict(by_epoch=False, interval=8000)
|
9 |
+
evaluation = dict(interval=8000, metric='mIoU')
|
ControlNet/annotator/uniformer/exp/upernet_global_small/config.py
ADDED
@@ -0,0 +1,38 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
_base_ = [
|
2 |
+
'../../configs/_base_/models/upernet_uniformer.py',
|
3 |
+
'../../configs/_base_/datasets/ade20k.py',
|
4 |
+
'../../configs/_base_/default_runtime.py',
|
5 |
+
'../../configs/_base_/schedules/schedule_160k.py'
|
6 |
+
]
|
7 |
+
model = dict(
|
8 |
+
backbone=dict(
|
9 |
+
type='UniFormer',
|
10 |
+
embed_dim=[64, 128, 320, 512],
|
11 |
+
layers=[3, 4, 8, 3],
|
12 |
+
head_dim=64,
|
13 |
+
drop_path_rate=0.25,
|
14 |
+
windows=False,
|
15 |
+
hybrid=False
|
16 |
+
),
|
17 |
+
decode_head=dict(
|
18 |
+
in_channels=[64, 128, 320, 512],
|
19 |
+
num_classes=150
|
20 |
+
),
|
21 |
+
auxiliary_head=dict(
|
22 |
+
in_channels=320,
|
23 |
+
num_classes=150
|
24 |
+
))
|
25 |
+
|
26 |
+
# AdamW optimizer, no weight decay for position embedding & layer norm in backbone
|
27 |
+
optimizer = dict(_delete_=True, type='AdamW', lr=0.00006, betas=(0.9, 0.999), weight_decay=0.01,
|
28 |
+
paramwise_cfg=dict(custom_keys={'absolute_pos_embed': dict(decay_mult=0.),
|
29 |
+
'relative_position_bias_table': dict(decay_mult=0.),
|
30 |
+
'norm': dict(decay_mult=0.)}))
|
31 |
+
|
32 |
+
lr_config = dict(_delete_=True, policy='poly',
|
33 |
+
warmup='linear',
|
34 |
+
warmup_iters=1500,
|
35 |
+
warmup_ratio=1e-6,
|
36 |
+
power=1.0, min_lr=0.0, by_epoch=False)
|
37 |
+
|
38 |
+
data=dict(samples_per_gpu=2)
|
ControlNet/annotator/uniformer/exp/upernet_global_small/run.sh
ADDED
@@ -0,0 +1,10 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
#!/usr/bin/env bash
|
2 |
+
|
3 |
+
work_path=$(dirname $0)
|
4 |
+
PYTHONPATH="$(dirname $0)/../../":$PYTHONPATH \
|
5 |
+
python -m torch.distributed.launch --nproc_per_node=8 \
|
6 |
+
tools/train.py ${work_path}/config.py \
|
7 |
+
--launcher pytorch \
|
8 |
+
--options model.backbone.pretrained_path='your_model_path/uniformer_small_in1k.pth' \
|
9 |
+
--work-dir ${work_path}/ckpt \
|
10 |
+
2>&1 | tee -a ${work_path}/log.txt
|
ControlNet/annotator/uniformer/exp/upernet_global_small/test.sh
ADDED
@@ -0,0 +1,10 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
#!/usr/bin/env bash
|
2 |
+
|
3 |
+
work_path=$(dirname $0)
|
4 |
+
PYTHONPATH="$(dirname $0)/../../":$PYTHONPATH \
|
5 |
+
python -m torch.distributed.launch --nproc_per_node=8 \
|
6 |
+
tools/test.py ${work_path}/test_config_h32.py \
|
7 |
+
${work_path}/ckpt/latest.pth \
|
8 |
+
--launcher pytorch \
|
9 |
+
--eval mIoU \
|
10 |
+
2>&1 | tee -a ${work_path}/log.txt
|
ControlNet/annotator/uniformer/exp/upernet_global_small/test_config_g.py
ADDED
@@ -0,0 +1,38 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
1 |
+
_base_ = [
|
2 |
+
'../../configs/_base_/models/upernet_uniformer.py',
|
3 |
+
'../../configs/_base_/datasets/ade20k.py',
|
4 |
+
'../../configs/_base_/default_runtime.py',
|
5 |
+
'../../configs/_base_/schedules/schedule_160k.py'
|
6 |
+
]
|
7 |
+
model = dict(
|
8 |
+
backbone=dict(
|
9 |
+
type='UniFormer',
|
10 |
+
embed_dim=[64, 128, 320, 512],
|
11 |
+
layers=[3, 4, 8, 3],
|
12 |
+
head_dim=64,
|
13 |
+
drop_path_rate=0.25,
|
14 |
+
windows=False,
|
15 |
+
hybrid=False,
|
16 |
+
),
|
17 |
+
decode_head=dict(
|
18 |
+
in_channels=[64, 128, 320, 512],
|
19 |
+
num_classes=150
|
20 |
+
),
|
21 |
+
auxiliary_head=dict(
|
22 |
+
in_channels=320,
|
23 |
+
num_classes=150
|
24 |
+
))
|
25 |
+
|
26 |
+
# AdamW optimizer, no weight decay for position embedding & layer norm in backbone
|
27 |
+
optimizer = dict(_delete_=True, type='AdamW', lr=0.00006, betas=(0.9, 0.999), weight_decay=0.01,
|
28 |
+
paramwise_cfg=dict(custom_keys={'absolute_pos_embed': dict(decay_mult=0.),
|
29 |
+
'relative_position_bias_table': dict(decay_mult=0.),
|
30 |
+
'norm': dict(decay_mult=0.)}))
|
31 |
+
|
32 |
+
lr_config = dict(_delete_=True, policy='poly',
|
33 |
+
warmup='linear',
|
34 |
+
warmup_iters=1500,
|
35 |
+
warmup_ratio=1e-6,
|
36 |
+
power=1.0, min_lr=0.0, by_epoch=False)
|
37 |
+
|
38 |
+
data=dict(samples_per_gpu=2)
|