Generate CODE93 BarCode using Python
Create BarCode Images via your Python applications without installing any other software.
For a developer, who is trying to generate custom CODE93 barcode images via Python application, Aspose.Total for Python via .NET API can help to automate the barcode creation process in any color or size according to business needs. It’s a full package of various APIs dealing different formats as well as 1D, 2D and Postal barcodes. Aspose.BarCode for Python via .NET API that is part of Aspose.Total for Python via .NET package makes this generation process easy. Moreover, developers can easily adjust and customize appearance of all barcode elements, including the colors of bars, borders, background and text captions as well as their positioning.
How to Generate CODE93 BarCode in Python
- Use BarcodeGenerator class object with the relevant encoding types
- Set relevant paramets like location and dimensions
- Save using save() method by passing relevant image path and type like BarCodeImageFormat.PNG
Creation Requirements
- For CODE93 barcode creation, Python 3.5 or later is required
- Reference APIs within the project directly from PyPI ( Aspose.BarCode )
- Or Use the following pip commands
pip install aspose-barcode-for-python-via-net
- Moreover, Microsoft Windows or Linux based OS (see more for BarCode )
Generate CODE93 Symbology BarCode in Python
Explore Barcode Generator Options with Python
What is CODE93 Barcode?
Code 93 is a barcode symbology designed in 1982 by Intermec to provide a higher density and data security enhancement to Code 39. It is an alphanumeric, variable length symbology. Code 93 is used primarily by Canadian and United States postal services. Code 93 is very similar to Code 39, but includes a few additional characters. Code 93 also uses a modulo 43 check digit, rather than the modulo 10 used by Code 39.Code 93 is a continuous symbology, which means there are no start or stop characters. Code 93 characters are always encoded in pairs, with the first character of each pair being a shift character. The shift character indicates whether the second character in the pair is to be interpreted using the Code 93 A table or the B table. The Code 93 A table includes all the standard ASCII characters, while the B table includes additional characters such as lower case letters and accented characters.Code 93 is a very dense symbology, and is able to encode more data in a smaller space than Code 39. However, due to its complexity, Code 93 is not as widely used as Code 39.