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Aspose.Imaging  for Python
ODG

Use Python for ODG Images Binarization

Create Python Apps to Binarize ODG Images and Photos via Server APIs

How to Binarize ODG Images and Photos with Python

The introduction of color photography marked a pivotal shift in the photographic sphere. Nevertheless, the allure of the classic black and white image still persists. In spite of the prevalence of color cameras, many individuals still opt to convert their photographs into black and white. This transformation is typically achieved through a binarization process, replacing each pixel with a binary value: “0” for white and “1” for black. Black and white images are often used for more than just artistic purposes, finding practical application in scenarios such as printing illustrations in publications like books and newspapers. Within the Python graphics library, you have the ability to set a pixel brightness threshold. Pixels below this threshold assume a black color, while those above it adopt a white color. An adaptive binarization technique is also available, considering the surrounding pixel values to create seamless transitions between color boundaries in the resultant black and white image. For binarizing ODG files, we will utilize Aspose.Imaging for Python via .NET API which is a feature-rich, powerful and easy to use image manipulation and conversion API for Python platform. You may install it using the following command from your system command.

The system command line

>> pip install aspose-imaging-python-net

Steps to Binarize ODG via Python

You need the aspose-imaging-python-net to try the following workflow in your own environment.

  • load ODG files with Image.Load method;
  • binarize image;
  • save binarized image to disc in the supported by Aspose.Imaging format.

System Requirements

Aspose.Imaging for Python is supported on all major operating systems. Just make sure that you have the following prerequisites.

  • Microsoft Windows / Linux with .NET Core Runtime.
  • Python and PyPi package manager.
 

Binarize ODG images - Python

 
  • About Aspose.Imaging for Python API

    Aspose.Imaging API is an image processing solution to create, modify, draw or convert images (photos) within applications. It offers: cross-platform Image processing, including but not limited to conversions between various image formats (including uniform multi-page or multi-frame image processing), modifications such as drawing, working with graphic primitives, transformations (resize, crop, flip&rotate, binarization, grayscale, adjust), advanced image manipulation features (filtering, dithering, masking, deskewing), and memory optimization strategies. It’s a standalone library and does not depend on any software for image operations. One can easily add high-performance image conversion features with native APIs within projects. These are 100% private on-premise APIs and images are processed at your servers.

    Binarize ODG via Online App

    Binarize ODG documents by visiting our Live Demos website The live demo has the following benefits

      No need to download or setup anything
      No need to write any code
      Just upload your ODG files and hit "Binarize now" button
      Instantly get the download link for the resultant file

    ODG What is ODG File Format

    The ODG file format is used by Apache OpenOffice's Draw application to store drawing elements as a vector image. It follows the XML based file format specifications outlined by Advancement of Structural Information Standards (OASIS). ODG represents drawings as vector images using points, lines and curves. Besides OpenOffice, LibreOffice and other applications also provide support for working with ODG file format. Other formats supported by OpenOffice, for example, include ODT, ODF, ODP and ODS.

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    Other Supported Binarize Formats

    Using Python, you can easily Binarize different formats including:

    APNG (Animated Portable Network Graphics)
    BMP (Bitmap Picture)
    ICO (Windows icon)
    JPG (Joint Photographic Experts Group)
    JPEG (Joint Photographic Experts Group)
    DIB (Device Independent Bitmap)
    DICOM (Digital Imaging & Communications)
    DJVU (Graphics Format)
    DNG (Digital Camera Image)
    EMF (Enhanced Metafile Format)
    EMZ (Windows Compressed Enhanced Metafile)
    GIF (Graphical Interchange Format)
    JP2 (JPEG 2000)
    J2K (Wavelet Compressed Image)
    PNG (Portable Network Graphics)
    TIFF (Tagged Image Format)
    TIF (Tagged Image Format)
    WEBP (Raster Web Image)
    WMF (Microsoft Windows Metafile)
    WMZ (Compressed Windows Media Player Skin)
    TGA (Targa Graphic)
    SVG (Scalable Vector Graphics)
    EPS (Encapsulated PostScript Language)
    CDR (Vector Drawing Image)
    CMX (Corel Exchange Image)
    OTG (OpenDocument Standard)