Module vulkano::image [] [src]

Images storage (1D, 2D, 3D, arrays, etc.).

An image is a location in memory whose purpose is to store multi-dimensional data. Its most common usage is to store a 2D array of color pixels (in other words an image in the everyday language), but it can also be used to store arbitrary data.

The advantage of using an image compared to a buffer is that the memory layout is optimized for locality. When reading a specific pixel of an image, reading the nearby pixels is really fast. Most implementations have hardware dedicated to reading from images if you access them through a sampler.

Properties of an image

Images and image views

There is a distinction between images and image views. As its name tells, an image view describes how the GPU must interpret the image.

Transfer and memory operations operate on images themselves, while reading/writing an image operates on image views. You can create multiple image views from the same image.

High-level wrappers

In the vulkano library, an image is any object that implements the Image trait and an image view is any object that implements the ImageView trait.

Since these traits are low-level, you are encouraged to not implement them yourself but instead use one of the provided implementations that are specialized depending on the way you are going to use the image:

  • An AttachmentImage can be used when you want to draw to an image.
  • An ImmutableImage stores data which never need be changed after the initial upload, like a texture.

Low-level informations

To be written.


pub use self::attachment::AttachmentImage;
pub use self::immutable::ImmutableImage;
pub use self::swapchain::SwapchainImage;
pub use self::sys::ImageCreationError;
pub use self::traits::ImageAccess;
pub use self::traits::ImageInner;
pub use self::traits::ImageViewAccess;



Low-level implementation of images and images views.




Describes how an image is going to be used. This is not an optimization.


General-purpose image in device memory. Can be used for any usage, but will be slower than a specialized image.


Specifies how the components of an image must be swizzled.



Describes the value that an individual component must return when being accessed.


Layout of an image.


Specifies how many mipmaps must be allocated.