This document describes the Iced ecosystem and explains how the different crates relate to each other.
Iced is meant to be used by 2 different types of users:
- End-users. They should be able to:
- get started quickly,
- have many widgets available,
- keep things simple,
- and build applications that are maintainable and performant.
- GUI toolkit developers / Ecosystem contributors. They should be able to:
- build new kinds of widgets,
- implement custom runtimes,
- integrate existing runtimes in their own system (like game engines),
- and create their own custom renderers.
Iced consists of different crates which offer different layers of abstractions for our users. This modular architecture helps us keep implementation details hidden and decoupled, which should allow us to rewrite or change strategies in the future.
There are a bunch of concepts that permeate the whole ecosystem. These concepts are considered the foundations, and they are provided by three different crates:
iced_core
contains many lightweight, reusable primitives (e.g.Point
,Rectangle
,Color
).iced_futures
implements the concurrent concepts of The Elm Architecture on top of thefutures
ecosystem.iced_style
defines the default styling capabilities of built-in widgets.
The native side of the ecosystem is split into two different groups: renderers and shells.
The widgets of a graphical user interface produce some primitives that eventually need to be drawn on screen. Renderers take care of this task, potentially leveraging GPU acceleration.
Currently, there are two different official renderers:
iced_wgpu
is powered bywgpu
and supports Vulkan, DirectX 12, and Metal.iced_glow
is powered byglow
and supports OpenGL 2.1+ and OpenGL ES 2.0+.
Additionally, the iced_graphics
subcrate contains a bunch of backend-agnostic types that can be leveraged to build renderers. Both of the renderers rely on the graphical foundations provided by this crate.
The widgets of a graphical user interface are interactive. Shells gather and process user interactions in an event loop.
Normally, a shell will be responsible of creating a window and managing the lifecycle of a user interface, implementing a runtime of The Elm Architecture.
As of now, there are two official shells:
iced_winit
implements a shell runtime on top ofwinit
.iced_glutin
is similar toiced_winit
, but it also deals with OpenGL context creation.
The Web platform provides all the abstractions necessary to draw widgets and gather users interactions.
Therefore, unlike the native path, the web side of the ecosystem does not need to split renderers and shells. Instead, iced_web
leverages dodrio
to both render widgets and implement a proper runtime.
Finally, iced
unifies everything into a simple abstraction to create cross-platform applications: