Define The SpriteSheet

With the texture loaded, Amethyst still needs to know where the sprites are on the image. There are two ways to load a sprite sheet definition: from a file or from code.

Load the sheet from a file

The easiest way to load your sprites is to use a sprite sheet definition ron file. Here is an example of such a definition file using a list of sprites:

    // Width of the texture used by the sprite sheet
    texture_width: 48,
    // Height of the texture used by the sprite sheet
    texture_height: 16,
    // List of sprites the sheet holds
    sprites: [
            // Horizontal position of the sprite in the sprite sheet
            x: 0,
            // Vertical position of the sprite in the sprite sheet
            y: 0,
            // Width of the sprite
            width: 16,
            // Height of the sprite
            height: 16,
            // Number of pixels to shift the sprite to the left and down relative to the entity holding it when rendering
            offsets: Some((0.0, 0.0)), // This is optional and defaults to (0.0, 0.0)
            x: 16,
            y: 0,
            width: 32,
            height: 16,
        // etc...

Or you can use a grid based definition, for example:

    // Width of the texture used by the sprite sheet
    texture_width: 48,
    // Height of the texture used by the sprite sheet
    texture_height: 16,
    // Specifies the number of columns in the sprite sheet
    columns: 2,
    // Specifies the number of sprites in the spritesheet.
    sprite_count: Some(2)

Option types need to be wrapped in the Some variant. For convenience, this can be left out if the line #![enable(implicit_some)] is added at the top of the definition file. For example, sprite_count: Some(2), could be replaced by sprite_count: 2,.

For more information about list and grid based sprite sheets, including the types of their fields, see SpriteGrid or SpriteList.

Once you have ron file ready, you can load it using the texture handle of the sheet's image you loaded earlier:

extern crate amethyst;
use amethyst::assets::{Loader, AssetStorage, Handle};
use amethyst::ecs::{World, WorldExt};
use amethyst::renderer::{SpriteSheetFormat, SpriteSheet, Texture};

fn load_texture() -> Handle<Texture> {

fn load_sprite_sheet() {
  let world = World::new();
  let loader = world.read_resource::<Loader>();
  let texture_handle = load_texture();
  let spritesheet_storage = world.read_resource::<AssetStorage<SpriteSheet>>();
let spritesheet_handle = loader.load(

This will get you the Handle<SpriteSheet> you will then use to draw the sprites.

Load the sheet from code

While it is not the recommended way, it is also possible to manually build your sheet with code.

Importantly, we use pixel coordinates as well as texture coordinates to define the sprite layout. Pixel coordinates indicate the dimensions of the sprite to draw on screen; texture coordinates indicate which part of the image contains the sprite, and are expressed as a proportion of the image.

The following table lists the differences between the coordinate systems:

Pixel coordinatesTexture coordinates
Begin at the top left of the imageBegin at the bottom left of the image
Increase to the right and downIncrease to the right and up
Range from 0 to (width or height - 1)Range from 0.0 to 1.0

In Amethyst, pixel dimensions and texture coordinates are stored in the Sprite struct. Since texture coordinates can be derived from pixel coordinates, Amethyst provides the Sprite::from_pixel_values function to create a Sprite.

The following snippet shows you how to naively define a SpriteSheet. In a real application, you would typically use the sprite sheet from file feature, which is much more convenient.

extern crate amethyst;
use amethyst::assets::Handle;
use amethyst::renderer::{sprite::TextureCoordinates, Sprite, SpriteSheet, Texture};

/// Returns a `SpriteSheet`.
/// # Parameters
/// * `texture`: Handle of the texture.
pub fn load_sprite_sheet(texture: Handle<Texture>) -> SpriteSheet {
    let sprite_count = 1; // number of sprites
    let mut sprites = Vec::with_capacity(sprite_count);

    let image_w = 100;
    let image_h = 20;
    let sprite_w = 10;
    let sprite_h = 10;

    // Here we are loading the 5th sprite on the bottom row.
    let offset_x = 50; // 5th sprite * 10 pixel sprite width
    let offset_y = 10; // Second row (1) * 10 pixel sprite height
    let offsets = [5.0; 2]; // Align the sprite with the middle of the entity.

    let sprite = Sprite::from_pixel_values(
        image_w, image_h, sprite_w, sprite_h, offset_x, offset_y, offsets, false, false,

    SpriteSheet {