/ImageSharp

:camera: A cross-platform library for the processing of image files; written in C#

Primary LanguageC#

ImageSharp ImageSharp

ImageSharp is a new, fully featured, fully managed, cross-platform, 2D graphics API designed to allow the processing of images without the use of System.Drawing.

Built against .Net Standard 1.1 ImageSharp can be used in device, cloud, and embedded/IoT scenarios.

ImageSharp has made excellent progress and contains many great features but is still considered by us to be still in early stages (alpha). As such, we cannot support its use on production environments until the library reaches release candidate status.

Pre-release downloads are available from the MyGet package repository.

GitHub license GitHub issues GitHub stars GitHub forks Gitter Twitter OpenCollective OpenCollective

Build Status Code Coverage
Linux/Mac Build Status Code coverage
Windows Build Status Code coverage

Installation

At present the code is pre-release but when ready it will be available on Nuget.

Pre-release downloads

We already have a MyGet package repository - for bleeding-edge / development NuGet releases.

Packages

The ImageSharp library is made up of multiple packages.

Packages include:

  • ImageSharp

    • Contains the generic Image<TPixel> class, PixelFormats, Primitives, Configuration, and other core functionality.
    • The IImageFormat interface, Jpeg, Png, Bmp, and Gif formats.
    • Transform methods like Resize, Crop, Skew, Rotate - Anything that alters the dimensions of the image.
    • Non-transform methods like Gaussian Blur, Pixelate, Edge Detection - Anything that maintains the original image dimensions.
  • ImageSharp.Drawing

    • Brushes and various drawing algorithms, including drawing images.
    • Various vector drawing methods for drawing paths, polygons etc.
    • Text drawing.

Manual build

If you prefer, you can compile ImageSharp yourself (please do and help!), you'll need:

Alternatively on Linux you can use:

To clone it locally click the "Clone in Windows" button above or run the following git commands.

git clone https://github.com/JimBobSquarePants/ImageSharp

Features

There's plenty there and more coming. Check out the current features!

API

Without the constraints of System.Drawing We have been able to develop something much more flexible, easier to code against, and much, much less prone to memory leaks.

Gone are system-wide process-locks; ImageSharp images are thread-safe and fully supported in web environments.

Many Image<TPixel> methods are also fluent.

Here's an example of the code required to resize an image using the default Bicubic resampler then turn the colors into their grayscale equivalent using the BT709 standard matrix.

Rgba32 is our default PixelFormat, equivalent to System.Drawing Color.

On platforms supporting netstandard 1.3+

// Image.Load(string path) is a shortcut for our default type. Other pixel formats use Image.Load<TPixel>(string path))
using (Image<Rgba32> image = Image.Load("foo.jpg"))
{
    image.Resize(image.Width / 2, image.Height / 2)
         .Grayscale()
         .Save("bar.jpg"); // automatic encoder selected based on extension.
}

on netstandard 1.1 - 1.2

// Image.Load(Stream stream) is a shortcut for our default type. Other pixel formats use Image.Load<TPixel>(Stream stream))
using (FileStream stream = File.OpenRead("foo.jpg"))
using (FileStream output = File.OpenWrite("bar.jpg"))
using (Image<Rgba32> image = Image.Load<Rgba32>(stream))
{
    image.Resize(image.Width / 2, image.Height / 2)
         .Grayscale()
         .Save(output);
}

Setting individual pixel values can be perfomed as follows:

// Individual pixels
using (Image<Rgba32> image = new Image<Rgba32>(400, 400)
{
    image[200, 200] = Rgba32.White;
}

For optimized access within a loop it is recommended that the following methods are used.

  1. image.GetRowSpan(y)
  2. image.GetRowSpan(x, y)

For advanced pixel format usage there are multiple PixelFormat implementations available allowing developers to implement their own color models in the same manner as Microsoft XNA Game Studio and MonoGame.

All in all this should allow image processing to be much more accessible to developers which has always been my goal from the start.

How can you help?

Please... Spread the word, contribute algorithms, submit performance improvements, unit tests.

Performance is a biggie, if you know anything about the System.Numerics.Vectors types and can apply some fancy new stuff with that it would be awesome.

There's a lot of developers out there who could write this stuff a lot better and faster than I and I would love to see what we collectively can come up with so please, if you can help in any way it would be most welcome and benificial for all.

The ImageSharp Team

Grand High Eternal Dictator

Core Team

Backers

Support us with a monthly donation and help us continue our activities. [Become a backer]

Sponsors

Become a sponsor and get your logo on our README on Github with a link to your site. [Become a sponsor]