Metadata-Version: 2.1
Name: torchlm
Version: 0.1.1
Summary: A PyTorch landmarks-only library with 100+ data augmentations, training and inference.
Home-page: https://github.com/DefTruth/torchlm
Author: DefTruth
Author-email: qyjdef@163.com
License: UNKNOWN
Description: ![torchlm-logo](https://github.com/DefTruth/torchlm/blob/main//docs/res/logo.png)    
        
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        ## 🤗 Introduction
        **torchlm** is a PyTorch landmarks-only library with **100+ data augmentations**, **training** and **inference**. **torchlm** is only focus on any landmarks detection, such as face landmarks, hand keypoints and body keypoints, etc. It provides **30+** native data augmentations and compatible with **80+** torchvision and albumations's transforms, no matter the input is a np.ndarray or a torch Tensor, **torchlm** will automatically be compatible with different data types and then wrap back to the original type through a autodtype wrapper. Further, in the future **torchlm** will add modules for **training** and **inference**.
        
        # 🆕 What's New
        
        * [2022/02/13]: Add **30+** native data augmentations and **bind** 80+ torchvision and albumations's transforms.
        
        ## 🛠️ Usage
        
        ### Requirements
        * opencv-python-headless>=4.5.2
        * numpy>=1.14.4
        * torch>=1.6.0
        * torchvision>=0.9.0
        * albumentations>=1.1.0
        
        ### Installation
        you can install **torchlm** directly from [pypi](https://pypi.org/project/torchlm/).
        ```shell
        pip3 install torchlm
        # install from specific pypi mirrors use '-i'
        pip3 install torchlm -i https://pypi.org/simple/
        ```
        or install from source.
        ```shell
        # clone torchlm repository locally
        git clone --depth=1 https://github.com/DefTruth/torchlm.git
        cd torchlm
        # install in editable mode
        pip install -e .
        ```
        
        ### Data Augmentation
        **torchlm** provides 30+ native data augmentations for landmarks and is compatible with 80+ transforms from torchvision and albumations, no matter the input is a np.ndarray or a torch Tensor, torchlm will automatically be compatible with different data types through a autodtype wrapper. 
        * use native torchlm's transforms
        ```python
        import torchlm
        transform = torchlm.LandmarksCompose([
                # use native torchlm transforms
                torchlm.LandmarksRandomScale(prob=0.5),
                torchlm.LandmarksRandomTranslate(prob=0.5),
                torchlm.LandmarksRandomShear(prob=0.5),
                torchlm.LandmarksRandomMask(prob=0.5),
                torchlm.LandmarksRandomBlur(kernel_range=(5, 25), prob=0.5),
                torchlm.LandmarksRandomBrightness(prob=0.),
                torchlm.LandmarksRandomRotate(40, prob=0.5, bins=8),
                torchlm.LandmarksRandomCenterCrop((0.5, 1.0), (0.5, 1.0), prob=0.5),
                torchlm.LandmarksResize((256, 256)),
                torchlm.LandmarksNormalize(),
                torchlm.LandmarksToTensor(),
                torchlm.LandmarksToNumpy(),
                torchlm.LandmarksUnNormalize()
            ])
        ```  
        * **bind** torchvision and albumations's transform, using **torchlm.bind**
        ```python
        import torchvision
        import albumentations
        import torchlm
        transform = torchlm.LandmarksCompose([
                # use native torchlm transforms
                torchlm.LandmarksRandomScale(prob=0.5),
                # ...
                # bind torchvision image only transforms
                torchlm.bind(torchvision.transforms.GaussianBlur(kernel_size=(5, 25))),
                torchlm.bind(torchvision.transforms.RandomAutocontrast(p=0.5)),
                torchlm.bind(torchvision.transforms.RandomAdjustSharpness(sharpness_factor=3, p=0.5)),
                # bind albumentations image only transforms
                torchlm.bind(albumentations.ColorJitter(p=0.5)),
                torchlm.bind(albumentations.GlassBlur(p=0.5)),
                torchlm.bind(albumentations.RandomShadow(p=0.5)),
                # bind albumentations dual transforms
                torchlm.bind(albumentations.RandomCrop(height=200, width=200, p=0.5)),
                torchlm.bind(albumentations.RandomScale(p=0.5)),
                torchlm.bind(albumentations.Rotate(p=0.5)),
                torchlm.LandmarksResize((256, 256)),
                torchlm.LandmarksNormalize(),
                torchlm.LandmarksToTensor(),
                torchlm.LandmarksToNumpy(),
                torchlm.LandmarksUnNormalize()
            ])
        ```
        * **bind** custom callable array or Tensor functions, using **torchlm.bind**  
        
        ```python
        # First, defined your custom functions
        def callable_array_noop(
                img: np.ndarray,
                landmarks: np.ndarray
        ) -> Tuple[np.ndarray, np.ndarray]:
            # Do some transform here ...
            return img.astype(np.uint32), landmarks.astype(np.float32)
        
        def callable_tensor_noop(
                img: Tensor,
                landmarks: Tensor
        ) -> Tuple[Tensor, Tensor]:
            # Do some transform here ...
            return img, landmarks
        ```
        
        ```python
        # Then, bind your functions and put it into transforms pipeline.
        transform = torchlm.LandmarksCompose([
                # use native torchlm transforms
                torchlm.LandmarksRandomScale(prob=0.5),
                # ...
                # bind torchvision image only transforms
                torchlm.bind(torchvision.transforms.GaussianBlur(kernel_size=(5, 25))),
                torchlm.bind(torchvision.transforms.RandomAutocontrast(p=0.5)),
                torchlm.bind(torchvision.transforms.RandomAdjustSharpness(sharpness_factor=3, p=0.5)),
                # bind albumentations image only transforms
                torchlm.bind(albumentations.ColorJitter(p=0.5)),
                torchlm.bind(albumentations.GlassBlur(p=0.5)),
                torchlm.bind(albumentations.RandomShadow(p=0.5)),
                # bind albumentations dual transforms
                torchlm.bind(albumentations.RandomCrop(height=200, width=200, p=0.5)),
                torchlm.bind(albumentations.RandomScale(p=0.5)),
                torchlm.bind(albumentations.Rotate(p=0.5)),
                # bind custom callable array functions
                torchlm.bind(callable_array_noop, bind_type=torchlm.BindEnum.Callable_Array),
                # bind custom callable Tensor functions
                torchlm.bind(callable_tensor_noop, bind_type=torchlm.BindEnum.Callable_Tensor),
                torchlm.LandmarksResize((256, 256)),
                torchlm.LandmarksNormalize(),
                torchlm.LandmarksToTensor(),
                torchlm.LandmarksToNumpy(),
                torchlm.LandmarksUnNormalize()
            ])
        ```
        <div align='center'>
          <img src='https://github.com/DefTruth/torchlm/blob/main//docs/res/124.jpg' height="100px" width="100px">
          <img src='https://github.com/DefTruth/torchlm/blob/main//docs/res/158.jpg' height="100px" width="100px">
          <img src='https://github.com/DefTruth/torchlm/blob/main//docs/res/386.jpg' height="100px" width="100px">
          <img src='https://github.com/DefTruth/torchlm/blob/main//docs/res/478.jpg' height="100px" width="100px">
          <img src='https://github.com/DefTruth/torchlm/blob/main//docs/res/537.jpg' height="100px" width="100px">
          <img src='https://github.com/DefTruth/torchlm/blob/main//docs/res/605.jpg' height="100px" width="100px">
          <img src='https://github.com/DefTruth/torchlm/blob/main//docs/res/802.jpg' height="100px" width="100px">
        </div>  
        
        
        * setup logging mode as `True` globally might help you figure out the runtime details
        ```python
        import torchlm
        # some global setting
        torchlm.set_transforms_debug(True)
        torchlm.set_transforms_logging(True)
        torchlm.set_autodtype_logging(True)
        ```
        some detail information will show you at each runtime, the infos might look like
        ```shell
        LandmarksRandomScale() AutoDtype Info: AutoDtypeEnum.Array_InOut
        LandmarksRandomScale() Execution Flag: False
        BindTorchVisionTransform(GaussianBlur())() AutoDtype Info: AutoDtypeEnum.Tensor_InOut
        BindTorchVisionTransform(GaussianBlur())() Execution Flag: True
        BindAlbumentationsTransform(ColorJitter())() AutoDtype Info: AutoDtypeEnum.Array_InOut
        BindAlbumentationsTransform(ColorJitter())() Execution Flag: True
        BindArrayCallable(callable_array_noop())() AutoDtype Info: AutoDtypeEnum.Array_InOut
        BindArrayCallable(callable_array_noop())() Execution Flag: True
        BindTensorCallable(callable_tensor_noop())() AutoDtype Info: AutoDtypeEnum.Tensor_InOut
        BindTensorCallable(callable_tensor_noop())() Execution Flag: True
        LandmarksUnNormalize() AutoDtype Info: AutoDtypeEnum.Array_InOut
        LandmarksUnNormalize() Execution Flag: True
        ```
        * Execution Flag: True means current transform was executed successful, False means it was not executed because of the random probability or some Runtime Exceptions(torchlm will should the error infos if debug mode is True).
        * AutoDtype Info: 
          * Array_InOut means current transform need a np.ndnarray as input and then output a np.ndarray.
          * Tensor_InOut means current transform need a torch Tensor as input and then output a torch Tensor. 
          * Array_In means current transform needs a np.ndarray input and then output a torch Tensor. 
          * Tensor_In means current transform needs a torch Tensor input and then output a np.ndarray. 
            
          But, is ok if your pass a Tensor to a np.ndarray like transform, **torchlm** will automatically be compatible with different data types and then wrap back to the original type through a autodtype wrapper.
        
        
        * Supported Transforms Sets, see [transforms.md](https://github.com/DefTruth/torchlm/blob/main/docs/api/transfroms.md). A detail example can be found at [test/transforms.py](https://github.com/DefTruth/torchlm/blob/main/test/transforms.py).
        
        ### Training(TODO)
        * [ ] YOLOX
        * [ ] YOLOv5
        * [ ] NanoDet
        * [ ] PIPNet
        * [ ] ResNet
        * [ ] MobileNet
        * [ ] ShuffleNet
        * [ ] ...
        
        ### Inference(TODO)
        * [ ] ONNXRuntime
        * [ ] MNN
        * [ ] NCNN
        * [ ] TNN
        * [ ] ... 
        
        ## 📖 Documentations
        * [ ] Native Data Augmentation's API (TODO)
        * [ ] ...
        
        ## 🎓 License 
        The code of torchlm is released under the MIT License.
        
        ## 👋 Contributing
        If you like this project please consider ⭐ this repo, as it is the simplest way to support me.
        
        ## 🎓 Acknowledgement  
        The implementation of torchlm's transforms borrow the code from [Paperspace](ttps://github.com/Paperspace/DataAugmentationForObjectDetection/blob/master/data_aug/bbox_util.py).  
        
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Description-Content-Type: text/markdown
